RenderNode

RenderNode

public RenderNode (String name)

Creates a new RenderNode that can be used to record batches of drawing operations, and store / apply render properties when drawn.

beginRecording

public RecordingCanvas beginRecording (int width, 
                int height)

Starts recording a display list for the render node. All operations performed on the returned canvas are recorded and stored in this display list. endRecording() must be called when the recording is finished in order to apply the updated display list. Failing to call endRecording() will result in an IllegalStateException if beginRecording(int, int) is called again.

beginRecording

public RecordingCanvas beginRecording ()

Same as beginRecording(int, int) with the width & height set to the RenderNode's own width & height. The RenderNode's width & height may be set with setPosition(int, int, int, int).

computeApproximateMemoryUsage

public long computeApproximateMemoryUsage ()

Gets the approximate memory usage of the RenderNode for debug purposes. Does not include the memory usage of any child RenderNodes nor any bitmaps, only the memory usage of this RenderNode and any data it owns.
Value is a non-negative number of bytes.

discardDisplayList

public void discardDisplayList ()

Reset native resources. This is called when cleaning up the state of display lists during destruction of hardware resources, to ensure that we do not hold onto obsolete resources after related resources are gone.

endRecording

public void endRecording ()

` Ends the recording for this display list. Calling this method marks the display list valid and hasDisplayList() will return true.

getAlpha

public float getAlpha ()

Returns the translucency level of this display list.

getAmbientShadowColor

public int getAmbientShadowColor ()

getBottom

public int getBottom ()

Gets the bottom position for the RenderNode.

getCameraDistance

public float getCameraDistance ()

Returns the distance in Z of the camera for this RenderNode

getClipToBounds

public boolean getClipToBounds ()

Returns whether or not the RenderNode is clipping to its bounds. See setClipToBounds(boolean) and setPosition(int, int, int, int)

getClipToOutline

public boolean getClipToOutline ()

See setClipToOutline(boolean)

getElevation

public float getElevation ()

See setElevation(float)

getHeight

public int getHeight ()

Gets the height of the RenderNode, which is the bottom - top.

getInverseMatrix

public void getInverseMatrix (Matrix outMatrix)

Gets the current transform inverted. This is a faster way to do the otherwise equivalent getMatrix(android.graphics.Matrix) followed by Matrix#invert(Matrix)

getLeft

public int getLeft ()

Gets the left position for the RenderNode.

getMatrix

public void getMatrix (Matrix outMatrix)

Gets the current transform matrix

getPivotX

public float getPivotX ()

Returns the pivot value for this display list on the X axis, in pixels.

getPivotY

public float getPivotY ()

Returns the pivot value for this display list on the Y axis, in pixels.

getRight

public int getRight ()

Gets the right position for the RenderNode.

getRotationX

public float getRotationX ()

Returns the rotation value for this display list around the X axis, in degrees.

getRotationY

public float getRotationY ()

Returns the rotation value for this display list around the Y axis, in degrees.

getRotationZ

public float getRotationZ ()

Returns the rotation value for this display list around the Z axis, in degrees.

getScaleX

public float getScaleX ()

Returns the scale value for this display list on the X axis.

getScaleY

public float getScaleY ()

Returns the scale value for this display list on the Y axis.

getSpotShadowColor

public int getSpotShadowColor ()

getTop

public int getTop ()

Gets the top position for the RenderNode.

getTranslationX

public float getTranslationX ()

Returns the translation value for this display list on the X axis, in pixels.

getTranslationY

public float getTranslationY ()

Returns the translation value for this display list on the Y axis, in pixels.

getTranslationZ

public float getTranslationZ ()

Returns the translation value for this display list on the Z axis.

getUniqueId

public long getUniqueId ()

Returns the unique ID that identifies this RenderNode. This ID is unique for the lifetime of the process. IDs are reset on process death, and are unique only within the process. This ID is intended to be used with debugging tools to associate a particular RenderNode across different debug dumping & inspection tools. For example a View layout inspector should include the unique ID for any RenderNodes that it owns to associate the drawing content with the layout content.

getUseCompositingLayer

public boolean getUseCompositingLayer ()

Gets whether or not a compositing layer is forced to be used. The default & recommended is false, as it is typically faster to avoid using compositing layers. See setUseCompositingLayer(boolean, android.graphics.Paint).

getWidth

public int getWidth ()

Gets the width of the RenderNode, which is the right - left.

hasDisplayList

public boolean hasDisplayList ()

Returns whether the RenderNode has a display list. If this returns false, the RenderNode should be re-recorded with beginRecording() and endRecording(). A RenderNode without a display list may still be drawn, however it will have no impact on the rendering content until its display list is updated. When a RenderNode is no longer drawn by anything the system may automatically invoke discardDisplayList(). It is therefore important to ensure that hasDisplayList() is true on a RenderNode prior to drawing it. See discardDisplayList()

hasIdentityMatrix

public boolean hasIdentityMatrix ()

Whether or not the RenderNode has an identity transform. This is a faster way to do the otherwise equivalent getMatrix(android.graphics.Matrix) Matrix#isIdentity() as it doesn't require copying the Matrix first, thus minimizing overhead.

hasOverlappingRendering

public boolean hasOverlappingRendering ()

Indicates whether the content of this display list overlaps.

hasShadow

public boolean hasShadow ()

Checks if the RenderNode has a shadow. That is, if the combination of getElevation() and getTranslationZ() is greater than zero, there is an Outline set with a valid shadow caster path, and the provided outline has a non-zero Outline#getAlpha().

isForceDarkAllowed

public boolean isForceDarkAllowed ()

See setForceDarkAllowed(boolean)

isPivotExplicitlySet

public boolean isPivotExplicitlySet ()

offsetLeftAndRight

public boolean offsetLeftAndRight (int offset)

Offsets the left and right positions for the RenderNode

offsetTopAndBottom

public boolean offsetTopAndBottom (int offset)

Offsets the top and bottom values for the RenderNode

resetPivot

public boolean resetPivot ()

Clears any pivot previously set by a call to setPivotX(float) or setPivotY(float). After calling this isPivotExplicitlySet() will be false and the pivot used for rotation will return to default of being centered on the view.

setAlpha

public boolean setAlpha (float alpha)

Sets the translucency level for the display list.

setAmbientShadowColor

public boolean setAmbientShadowColor (int color)

Sets the color of the ambient shadow that is drawn when the RenderNode has a positive Z or elevation value and is drawn inside of a Canvas#enableZ() section.

By default the shadow color is black. Generally, this color will be opaque so the intensity of the shadow is consistent between different RenderNodes with different colors.

The opacity of the final ambient shadow is a function of the shadow caster height, the alpha channel of the outlineAmbientShadowColor (typically opaque), and the R.attr.ambientShadowAlpha theme attribute.

setCameraDistance

public boolean setCameraDistance (float distance)

Sets the distance along the Z axis (orthogonal to the X/Y plane on which RenderNodes are drawn) from the camera to this RenderNode. The camera's distance affects 3D transformations, for instance rotations around the X and Y axis. If the rotationX or rotationY properties are changed and this view is large (more than half the size of the screen), it is recommended to always use a camera distance that's greater than the height (X axis rotation) or the width (Y axis rotation) of this view.

The distance of the camera from the drawing plane can have an affect on the perspective distortion of the RenderNode when it is rotated around the x or y axis. For example, a large distance will result in a large viewing angle, and there will not be much perspective distortion of the view as it rotates. A short distance may cause much more perspective distortion upon rotation, and can also result in some drawing artifacts if the rotated view ends up partially behind the camera (which is why the recommendation is to use a distance at least as far as the size of the view, if the view is to be rotated.)

The distance is expressed in pixels and must always be positive

setClipRect

public boolean setClipRect (Rect rect)

Sets an additional clip on the RenderNode. If null, the extra clip is removed from the RenderNode. If non-null, the RenderNode will be clipped to this rect. In addition if setClipToBounds(boolean) is true, then the RenderNode will be clipped to the intersection of this rectangle and the bounds of the render node, which is set with setPosition(android.graphics.Rect).

This is equivalent to do a Canvas#clipRect(Rect) at the start of this RenderNode's display list. However, as this is a property of the RenderNode instead of part of the display list it can be more easily animated for transient additional clipping. An example usage of this would be the ChangeBounds transition animation with the resizeClip=true option.

setClipToBounds

public boolean setClipToBounds (boolean clipToBounds)

Set whether the Render node should clip itself to its bounds. This defaults to true, and is useful to the renderer in enable quick-rejection of chunks of the tree as well as better partial invalidation support. Clipping can be further restricted or controlled through the combination of this property as well as setClipRect(android.graphics.Rect), which allows for a different clipping rectangle to be used in addition to or instead of the setPosition(int, int, int, int) or the RenderNode.

setClipToOutline

public boolean setClipToOutline (boolean clipToOutline)

Enables or disables clipping to the outline.

setElevation

public boolean setElevation (float lift)

Sets the base elevation of this RenderNode in pixels

setForceDarkAllowed

public boolean setForceDarkAllowed (boolean allow)

Sets whether or not to allow force dark to apply to this RenderNode. Setting this to false will disable the auto-dark feature on everything this RenderNode draws, including any descendants. Setting this to true will allow this RenderNode to be automatically made dark, however a value of 'true' will not override any 'false' value in its parent chain nor will it prevent any 'false' in any of its children.

setHasOverlappingRendering

public boolean setHasOverlappingRendering (boolean hasOverlappingRendering)

Sets whether the display list renders content which overlaps. Non-overlapping rendering can use a fast path for alpha that avoids rendering to an offscreen buffer. By default display lists consider they do not have overlapping content.

setOutline

public boolean setOutline (Outline outline)

Sets the outline, defining the shape that casts a shadow, and the path to be clipped if setClipToOutline is set. This will make a copy of the provided Outline, so any future modifications to the outline will need to call setOutline(android.graphics.Outline) with the modified outline for those changes to be applied.

setPivotX

public boolean setPivotX (float pivotX)

Sets the pivot value for the display list on the X axis

setPivotY

public boolean setPivotY (float pivotY)

Sets the pivot value for the display list on the Y axis

setPosition

public boolean setPosition (int left, 
                int top, 
                int right, 
                int bottom)

Sets the position of the RenderNode.

setPosition

public boolean setPosition (Rect position)

Sets the position of the RenderNode.

setProjectBackwards

public boolean setProjectBackwards (boolean shouldProject)

Sets whether the RenderNode should be drawn immediately after the closest ancestor RenderNode containing a projection receiver.

The default is false, and the rendering of this node happens in the typical draw order.

If true, then at rendering time this rendernode will not be drawn in order with the Canvas#drawRenderNode(RenderNode) command that drew this RenderNode, but instead it will be re-positioned in the RenderNode tree to be drawn on the closet ancestor with a child rendernode that has setProjectionReceiver(boolean) as true.

The typical usage of this is to allow a child RenderNode to draw on a parent's background, such as the platform's usage with RippleDrawable. Consider the following structure, built out of which RenderNode called drawRenderNode on a different RenderNode:

        +-------------+
        |RenderNode: P|
        +-+----------++
          |          |
          v          v
  +-------+-----+  +-+--------------+
  |RenderNode: C|  |RenderNode: P'BG|
  +-------+-----+  +----------------+
          |
          |
 +--------+-------+
 |RenderNode: C'BG|
 +----------------+
 

setProjectionReceiver

public boolean setProjectionReceiver (boolean shouldReceive)

Sets whether the RenderNode is a projection receiver. If true then this RenderNode's parent should draw any descendant RenderNodes with ProjectBackwards=true directly on top of it. Default value is false. See setProjectBackwards(boolean) for a description of what this entails.

setRenderEffect

public boolean setRenderEffect (RenderEffect renderEffect)

Configure the RenderEffect to apply to this RenderNode. This will apply a visual effect to the end result of the contents of this RenderNode before it is drawn into the destination. For example if RenderEffect#createBlurEffect(float, float, RenderEffect, Shader.TileMode) is provided, the contents will be drawn in a separate layer, then this layer will be blurred when this RenderNode is drawn into the destination.

setRotationX

public boolean setRotationX (float rotationX)

Sets the rotation value for the display list around the X axis.

setRotationY

public boolean setRotationY (float rotationY)

Sets the rotation value for the display list around the Y axis.

setRotationZ

public boolean setRotationZ (float rotation)

Sets the rotation value for the display list around the Z axis.

setScaleX

public boolean setScaleX (float scaleX)

Sets the scale value for the display list on the X axis.

setScaleY

public boolean setScaleY (float scaleY)

Sets the scale value for the display list on the Y axis.

setSpotShadowColor

public boolean setSpotShadowColor (int color)

Sets the color of the spot shadow that is drawn when the RenderNode has a positive Z or elevation value and is drawn inside of a Canvas#enableZ() section.

By default the shadow color is black. Generally, this color will be opaque so the intensity of the shadow is consistent between different RenderNodes with different colors.

The opacity of the final spot shadow is a function of the shadow caster height, the alpha channel of the outlineSpotShadowColor (typically opaque), and the R.attr.spotShadowAlpha theme attribute

setTranslationX

public boolean setTranslationX (float translationX)

Sets the translation value for the display list on the X axis.

setTranslationY

public boolean setTranslationY (float translationY)

Sets the translation value for the display list on the Y axis.

setTranslationZ

public boolean setTranslationZ (float translationZ)

Sets the translation value for the display list on the Z axis.

setUseCompositingLayer

public boolean setUseCompositingLayer (boolean forceToLayer, 
                Paint paint)

Controls whether or not to force this RenderNode to render to an intermediate buffer. Internally RenderNode will already promote itself to a composition layer if it's useful for performance or required for the current combination of setAlpha(float) and setHasOverlappingRendering(boolean).

The usage of this is instead to allow for either overriding of the internal behavior if it's measured to be necessary for the particular rendering content in question or, more usefully, to add a composition effect to the RenderNode via the optional paint parameter.

Note: When a RenderNode is using a compositing layer it will also result in clipToBounds=true behavior.