Reference/Release Notes/2.64/Mask Editor
- 1 Blender 2.64: Mask Editor
- 1.1 Introduction
- 1.2 Mask Datablock: Points, Splines and Layers
- 1.3 Editing Masks
- 1.4 Using Masks
- 1.5 Animating Masks
- 1.6 S-Curves
- 1.7 Masking Tips
- 1.8 Developer Documentation
Blender 2.64: Mask Editor
Previously there was no simple workflow for masks in Blender, compositing a rendered scene with real footage was possible, but when it came to masking out objects, defining areas of influence and other scenarios, the workflow was cumbersome. Masks are now natively supported, which allow you to draw masks using splines, and then have them rasterized for use in the compositor or sequencer.
This features consists of a few different parts:
- Mask datablock containing multiple mask layers and splines.
- Mask editing in the image and movie clip editor space using various tools.
- Animation of masks with keyframes, drivers and tracking data.
- Compositing node and sequencer strip to use mask.
Mask Datablock: Points, Splines and Layers
A Point is the most low-level entity used to define mask. It's a simple point with it a coordinate, handles and set of feather points. Points can be parented to markers from motion tracking.
Sets of points define a Spline. Currently only Bezier splines are supported. They create a smooth curve from the first to the last point in the spline. Splines by default will create a filled area, but can also create non-closed curves with a thickness to mask out objects such as wires or hair.
One or several splines can belong to the same Layer. Splines belonging to the same layer can be animated together, for example by an item from motion tracker footage. By creating overlapping splines holes can be created, and it's the layer membership that defines which splines interact to create holes.
Mask datablocks are the most high-level entity used for masking purposes. They can be reused in different places, and hold global parameters for all the entities they consist of.
The purpose of mask layers can be explained with an example. Suppose there are two unwanted people in the footage, and one of them goes from left to right, and the other in the opposite direction. Two mask layers can then be used to mask them separately using a single mask datablock. At the point of intersection of these shapes they will be added together rather than creating a hole, as would happen if they were on the same layer. If the motion is simple enough, a single motion tracked point can be used to drive the location of the entire mask layer. Each mask layer can consist of multiple splines to fit more complex shapes.
Masks can be created in the image and movie clip editors, by changing the mode from View to Mask in the header. This will add various tools and properties to the editor panels, while hiding others that are not needed for interacting with masks. The tools and panels available to edit masks are the same in both editors, with the exception that linking masks to motion tracking data is only possible in the movie clip editor.
Once set to Mask mode, a Mask datablock can be added. Any image, movie clip, render or compositing result can be used as a backdrop to draw masks over. To get interactive feedback on the resulting mask, a Mask node can be connected directly to a Viewer node in the compositor, which will then keep updating the compositing result while editing.
Editing of mask splines happens in a way similar to editing bezier curves or paths in GIMP or other curve editors: control points are added to define the spline itself, and handles of different types are used to create smooth bends. This makes it possible to define a mask with few points to easily follow an object in footage.
- Template:Shortcut/Hotkey + Template:Shortcut/Mouse is used to place new control points and define handle orientations (click to place control point, click followed with slide to place new control point and set smoothness for it).
- Template:Shortcut/Hotkey + Template:Shortcut/Hotkey: to close the mask by joining the last control point to the first.
- Existing control points can be translated, scaled and rotated with the usual Template:Shortcut/Hotkey, Template:Shortcut/Hotkey, Template:Shortcut/Hotkey shortcuts.
- Template:Shortcut/Hotkey or Template:Shortcut/Hotkey removes control points.
The usual selection and hide/reveal tools are available:
- Template:Shortcut/Hotkey: toggle select all
- Template:Shortcut/Hotkey, Template:Shortcut/Hotkey: border and circle Select
- Template:Shortcut/Hotkey + Template:Shortcut/Hotkey select linked from selection, Template:Shortcut/Hotkey: select linked with mouse
- Template:Shortcut/Hotkey + Template:Shortcut/Hotkey + Template:Shortcut/Hotkey: lasso select
- Template:Shortcut/Hotkey hide selected, Template:Shortcut/Hotkey + Template:Shortcut/Hotkey hide unselected, Template:Shortcut/Hotkey + Template:Shortcut/Hotkey reveal
- Template:Shortcut/Hotkey + Template:Shortcut/Hotkey: cycle toggle spline, to create a close curve or open it again
- Template:Shortcut/Hotkey: set handle type for selected spline points
- Template:Shortcut/Hotkey + Template:Shortcut/Hotkey: make normals (handle directions) consistent
- Switch Direction handle directions in/out.
It's possible to control feather of mask, including a way to define non-linear feather. Linear feather is controlled by a slider, non-linear feather is controlled in the same curve-based way to define feather falloff.
- Template:Shortcut/Hotkey + Template:Shortcut/Mouse is used to define a feathering outline curve. To create an initial feather, sliding from a spline control point outside or inside will create and position feather points. After this Template:Shortcut/Hotkey + Template:Shortcut/Mouse will insert new feather point and mouse sliding can be used to move them around.
- Template:Shortcut/Hotkey + Template:Shortcut/Hotkey will scale the feather size.
Masks have many purposes. They can be used in a motion tracking workflow to mask out, or influence a particular object in the footage. They can be used for manual rotoscoping to pull a particular object out of the footage, or as a rough matte for green screen keying. Masks are independent from a particular image of movie clip, and so they can just as well be used for creating motion graphics or other effects in the compositor.
In the compositing nodes the Mask input node can be used to select a mask datablock, with as output the raster mask image. This image can be used with other nodes, for example to Invert, Multiply or Mix, or use as a factor input. The node options are:
- Create smooth mask edges rather than hard ones.
- Use or ignore feather points defined for splines.
- Scene Size will give an image the size of the render resolution for the scene, scaling along when rendering with different resolutions. Fixed gives a fixed size in pixels. Fixed/Scene gives a size in pixels that still scales along when changing the render resolution percentage in the scene.
- For animated masks, creating a motion blurred mask from the surrounding frames, with a given number of samples (higher gives better quality), and a camera shutter time in seconds.
In the sequencer a Mask strip can be added, which generates a mask image. This works similar to the compositing node but without the options available for finer control. The mask image is always generated at the render resolution, scaling along with different proxy levels.
Masks can be driven over the time so that they follow some object from the footage, e.g. a running actor. This animation can be done in several ways:
- Control points can be parented to motion tracks. This way is the main way to interact with masks in a motion tracking workflow.
- Keyframe animation of control points using a shape keying system This can be useful when there are not enough good feature points to track in the footage, or the mask is not based on footage.
For animation more complex mask shapes, it is also possible to do more high level animation:
- Splines and mask layers can be animated as a whole, instead of individual control points.
- Masks can be parented to motion tracking data. Works for both individual mask point parenting and for overall spline. To select motion track to be parented to use Template:Shortcut/Hotkey + Template:Shortcut/Mouse. To parent selected mask points to active motion track use Template:Shortcut/Hotkey + Template:Shortcut/Hotkey.
- Mask animation timing can be edited from the Dope Sheet where there is a mask mode where mask keyframes can be selected and edited.
Masks can be animated with shape keyframing. This works on the level of mask layers, so inserting a shape key will keyframe all the splines and points contained in it.
- Template:Shortcut/Hotkey will insert a shape key for the active mask layer at the current frame.
- Template:Shortcut/Hotkey + Template:Shortcut/Hotkey will clear the shape key for the active mask layer at the current frame.
- Feather Reset Animation: Resets the feather offset across all animated frames
useful if you animate first then add feather after.
- Re-Key Points of Selected Shapes: Re-interpolate selected points on across the range of keys selected in the dope sheet.
This has the same effect of removing and re-inserting keys - however it can be applied selectively to the points you need.
Parenting to Motion Tracks
In the movie clip editor, it's possible to parent spline points to motion tracks.
- Template:Shortcut/Hotkey + Template:Shortcut/Hotkey parents one or more selected spline points to the active motion tracker.
- Template:Shortcut/Hotkey + Template:Shortcut/Hotkey clears any parenting relationship for the selected spline points.
The curve type used for creating mask splines is almost a Bezier curve, but with some differences. The curve needed to support feathering in a way that stuck to the curve as you edited it, for ease of editing an animation. We call these S-Curves.
Besides the handles, every control point also has points that define the feather between the current point and the next point on the spline. Each feather point is stored in UV space, where U means position across spline segment, and V means distance between main spline and feather points.
This allows for deforming the main spline in almost any way, and the feather will be updated automatically to reflect that change. For example if there's just rotation of the spline, feather would stay completely unchanged. If one point's feather is moved, the other feathers will be automatically stretched uniformly along that segment and the overall shape will be almost the same as artists would want it to be.
Tips on how to use masking together with motion tracker, from the Mango open movie project.