Packagemx.core
Interfacepublic interface IFlexDisplayObject extends IBitmapDrawable , IEventDispatcher
Implementors BitmapAsset, ButtonAsset, DefaultDragImage, MovieClipAsset, MovieClipLoaderAsset, ProgrammaticSkin, SpriteAsset, SystemManager, TextFieldAsset, UIComponent

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

The IFlexDisplayObject interface defines the interface for skin elements. At a minimum, a skin must be a DisplayObject and implement this interface.



Public Properties
 PropertyDefined By
  accessibilityProperties : AccessibilityProperties
The current accessibility options for this display object.
IFlexDisplayObject
  alpha : Number
Indicates the alpha transparency value of the object specified.
IFlexDisplayObject
  blendMode : String
A value from the BlendMode class that specifies which blend mode to use.
IFlexDisplayObject
  cacheAsBitmap : Boolean
If set to true, Flash Player or Adobe AIR caches an internal bitmap representation of the display object.
IFlexDisplayObject
  filters : Array
An indexed array that contains each filter object currently associated with the display object.
IFlexDisplayObject
  height : Number
Indicates the height of the display object, in pixels.
IFlexDisplayObject
  loaderInfo : LoaderInfo
[read-only] Returns a LoaderInfo object containing information about loading the file to which this display object belongs.
IFlexDisplayObject
  mask : DisplayObject
The calling display object is masked by the specified mask object.
IFlexDisplayObject
  measuredHeight : Number
[read-only] The measured height of this object.
IFlexDisplayObject
  measuredWidth : Number
[read-only] The measured width of this object.
IFlexDisplayObject
  mouseX : Number
[read-only] Indicates the x coordinate of the mouse position, in pixels.
IFlexDisplayObject
  mouseY : Number
[read-only] Indicates the y coordinate of the mouse position, in pixels.
IFlexDisplayObject
  name : String
Indicates the instance name of the DisplayObject.
IFlexDisplayObject
  opaqueBackground : Object
Specifies whether the display object is opaque with a certain background color.
IFlexDisplayObject
  parent : DisplayObjectContainer
[read-only] Indicates the DisplayObjectContainer object that contains this display object.
IFlexDisplayObject
  root : DisplayObject
[read-only] For a display object in a loaded SWF file, the root property is the top-most display object in the portion of the display list's tree structure represented by that SWF file.
IFlexDisplayObject
  rotation : Number
Indicates the rotation of the DisplayObject instance, in degrees, from its original orientation.
IFlexDisplayObject
  scale9Grid : Rectangle
The current scaling grid that is in effect.
IFlexDisplayObject
  scaleX : Number
Indicates the horizontal scale (percentage) of the object as applied from the registration point.
IFlexDisplayObject
  scaleY : Number
Indicates the vertical scale (percentage) of an object as applied from the registration point of the object.
IFlexDisplayObject
  scrollRect : Rectangle
The scroll rectangle bounds of the display object.
IFlexDisplayObject
  stage : Stage
[read-only] The Stage of the display object.
IFlexDisplayObject
  transform : flash.geom:Transform
An object with properties pertaining to a display object's matrix, color transform, and pixel bounds.
IFlexDisplayObject
  visible : Boolean
Whether or not the display object is visible.
IFlexDisplayObject
  width : Number
Indicates the width of the display object, in pixels.
IFlexDisplayObject
  x : Number
Indicates the x coordinate of the DisplayObject instance relative to the local coordinates of the parent DisplayObjectContainer.
IFlexDisplayObject
  y : Number
Indicates the y coordinate of the DisplayObject instance relative to the local coordinates of the parent DisplayObjectContainer.
IFlexDisplayObject
Public Methods
 MethodDefined By
 Inherited
addEventListener(type:String, listener:Function, useCapture:Boolean = false, priority:int = 0, useWeakReference:Boolean = false):void
Registers an event listener object with an EventDispatcher object so that the listener receives notification of an event.
IEventDispatcher
 Inherited
Dispatches an event into the event flow.
IEventDispatcher
  
getBounds(targetCoordinateSpace:DisplayObject):Rectangle
Returns a rectangle that defines the area of the display object relative to the coordinate system of the targetCoordinateSpace object.
IFlexDisplayObject
  
getRect(targetCoordinateSpace:DisplayObject):Rectangle
Returns a rectangle that defines the boundary of the display object, based on the coordinate system defined by the targetCoordinateSpace parameter, excluding any strokes on shapes.
IFlexDisplayObject
  
Converts the point object from the Stage (global) coordinates to the display object's (local) coordinates.
IFlexDisplayObject
 Inherited
Checks whether the EventDispatcher object has any listeners registered for a specific type of event.
IEventDispatcher
  
Evaluates the bounding box of the display object to see if it overlaps or intersects with the bounding box of the obj display object.
IFlexDisplayObject
  
hitTestPoint(x:Number, y:Number, shapeFlag:Boolean = false):Boolean
Evaluates the display object to see if it overlaps or intersects with the point specified by the x and y parameters.
IFlexDisplayObject
  
Converts the point object from the display object's (local) coordinates to the Stage (global) coordinates.
IFlexDisplayObject
  
Moves this object to the specified x and y coordinates.
IFlexDisplayObject
 Inherited
removeEventListener(type:String, listener:Function, useCapture:Boolean = false):void
Removes a listener from the EventDispatcher object.
IEventDispatcher
  
setActualSize(newWidth:Number, newHeight:Number):void
Sets the actual size of this object.
IFlexDisplayObject
 Inherited
Checks whether an event listener is registered with this EventDispatcher object or any of its ancestors for the specified event type.
IEventDispatcher
Property Detail
accessibilityPropertiesproperty
accessibilityProperties:AccessibilityProperties

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

The current accessibility options for this display object. If you modify the accessibilityProperties property or any of the fields within accessibilityProperties, you must call the Accessibility.updateProperties() method to make your changes take effect.



Implementation
    public function get accessibilityProperties():AccessibilityProperties
    public function set accessibilityProperties(value:AccessibilityProperties):void
alphaproperty 
alpha:Number

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

Indicates the alpha transparency value of the object specified. Valid values are 0 (fully transparent) to 1 (fully opaque). The default value is 1. Display objects with alpha set to 0 are active, even though they are invisible.



Implementation
    public function get alpha():Number
    public function set alpha(value:Number):void
blendModeproperty 
blendMode:String

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

A value from the BlendMode class that specifies which blend mode to use. A bitmap can be drawn internally in two ways. If you have a blend mode enabled or an external clipping mask, the bitmap is drawn by adding a bitmap-filled square shape to the vector render. If you attempt to set this property to an invalid value, Flash Player or Adobe AIR sets the value to BlendMode.NORMAL.

The blendMode property affects each pixel of the display object. Each pixel is composed of three constituent colors (red, green, and blue), and each constituent color has a value between 0x00 and 0xFF. Flash Player or Adobe AIR compares each constituent color of one pixel in the movie clip with the corresponding color of the pixel in the background. For example, if blendMode is set to BlendMode.LIGHTEN, Flash Player or Adobe AIR compares the red value of the display object with the red value of the background, and uses the lighter of the two as the value for the red component of the displayed color.

The following table describes the blendMode settings. The BlendMode class defines string values you can use. The illustrations in the table show blendMode values applied to a circular display object (2) superimposed on another display object (1).

Square Number 1 Circle Number 2

BlendMode ConstantIllustrationDescription
BlendMode.NORMALblend mode NORMALThe display object appears in front of the background. Pixel values of the display object override those of the background. Where the display object is transparent, the background is visible.
BlendMode.LAYERblend mode LAYERForces the creation of a transparency group for the display object. This means that the display object is pre-composed in a temporary buffer before it is processed further. This is done automatically if the display object is pre-cached using bitmap caching or if the display object is a display object container with at least one child object with a blendMode setting other than BlendMode.NORMAL.
BlendMode.MULTIPLYblend mode MULTIPLYMultiplies the values of the display object constituent colors by the colors of the background color, and then normalizes by dividing by 0xFF, resulting in darker colors. This setting is commonly used for shadows and depth effects.

For example, if a constituent color (such as red) of one pixel in the display object and the corresponding color of the pixel in the background both have the value 0x88, the multiplied result is 0x4840. Dividing by 0xFF yields a value of 0x48 for that constituent color, which is a darker shade than the color of the display object or the color of the background.

BlendMode.SCREENblend mode SCREENMultiplies the complement (inverse) of the display object color by the complement of the background color, resulting in a bleaching effect. This setting is commonly used for highlights or to remove black areas of the display object.
BlendMode.LIGHTENblend mode LIGHTENSelects the lighter of the constituent colors of the display object and the color of the background (the colors with the larger values). This setting is commonly used for superimposing type.

For example, if the display object has a pixel with an RGB value of 0xFFCC33, and the background pixel has an RGB value of 0xDDF800, the resulting RGB value for the displayed pixel is 0xFFF833 (because 0xFF > 0xDD, 0xCC < 0xF8, and 0x33 > 0x00 = 33).

BlendMode.DARKENblend mode DARKENSelects the darker of the constituent colors of the display object and the colors of the background (the colors with the smaller values). This setting is commonly used for superimposing type.

For example, if the display object has a pixel with an RGB value of 0xFFCC33, and the background pixel has an RGB value of 0xDDF800, the resulting RGB value for the displayed pixel is 0xDDCC00 (because 0xFF > 0xDD, 0xCC < 0xF8, and 0x33 > 0x00 = 33).

BlendMode.DIFFERENCEblend mode DIFFERENCECompares the constituent colors of the display object with the colors of its background, and subtracts the darker of the values of the two constituent colors from the lighter value. This setting is commonly used for more vibrant colors.

For example, if the display object has a pixel with an RGB value of 0xFFCC33, and the background pixel has an RGB value of 0xDDF800, the resulting RGB value for the displayed pixel is 0x222C33 (because 0xFF - 0xDD = 0x22, 0xF8 - 0xCC = 0x2C, and 0x33 - 0x00 = 0x33).

BlendMode.ADDblend mode ADDAdds the values of the constituent colors of the display object to the colors of its background, applying a ceiling of 0xFF. This setting is commonly used for animating a lightening dissolve between two objects.

For example, if the display object has a pixel with an RGB value of 0xAAA633, and the background pixel has an RGB value of 0xDD2200, the resulting RGB value for the displayed pixel is 0xFFC833 (because 0xAA + 0xDD > 0xFF, 0xA6 + 0x22 = 0xC8, and 0x33 + 0x00 = 0x33).

BlendMode.SUBTRACTblend mode SUBTRACTSubtracts the values of the constituent colors in the display object from the values of the background color, applying a floor of 0. This setting is commonly used for animating a darkening dissolve between two objects.

For example, if the display object has a pixel with an RGB value of 0xAA2233, and the background pixel has an RGB value of 0xDDA600, the resulting RGB value for the displayed pixel is 0x338400 (because 0xDD - 0xAA = 0x33, 0xA6 - 0x22 = 0x84, and 0x00 - 0x33 < 0x00).

BlendMode.INVERTblend mode INVERTInverts the background.
BlendMode.ALPHAblend mode ALPHAApplies the alpha value of each pixel of the display object to the background. This requires the blendMode setting of the parent display object to be set to BlendMode.LAYER. For example, in the illustration, the parent display object, which is a white background, has blendMode = BlendMode.LAYER.
BlendMode.ERASEblend mode ERASEErases the background based on the alpha value of the display object. This requires the blendMode of the parent display object to be set to BlendMode.LAYER. For example, in the illustration, the parent display object, which is a white background, has blendMode = BlendMode.LAYER.
BlendMode.OVERLAYblend mode OVERLAYAdjusts the color of each pixel based on the darkness of the background. If the background is lighter than 50% gray, the display object and background colors are screened, which results in a lighter color. If the background is darker than 50% gray, the colors are multiplied, which results in a darker color. This setting is commonly used for shading effects.
BlendMode.HARDLIGHTblend mode HARDLIGHTAdjusts the color of each pixel based on the darkness of the display object. If the display object is lighter than 50% gray, the display object and background colors are screened, which results in a lighter color. If the display object is darker than 50% gray, the colors are multiplied, which results in a darker color. This setting is commonly used for shading effects.
BlendMode.SHADERN/AAdjusts the color using a custom shader routine. The shader that is used is specified as the Shader instance assigned to the blendShader property. Setting the blendShader property of a display object to a Shader instance automatically sets the display object's blendMode property to BlendMode.SHADER. If the blendMode property is set to BlendMode.SHADER without first setting the blendShader property, the blendMode property is set to BlendMode.NORMAL.



Implementation
    public function get blendMode():String
    public function set blendMode(value:String):void
cacheAsBitmapproperty 
cacheAsBitmap:Boolean

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

If set to true, Flash Player or Adobe AIR caches an internal bitmap representation of the display object. This caching can increase performance for display objects that contain complex vector content.

All vector data for a display object that has a cached bitmap is drawn to the bitmap instead of the main display. The bitmap is then copied to the main display as unstretched, unrotated pixels snapped to the nearest pixel boundaries. Pixels are mapped 1 to 1 with the parent object. If the bounds of the bitmap change, the bitmap is recreated instead of being stretched.

No internal bitmap is created unless the cacheAsBitmap property is set to true.

After you set the cacheAsBitmap property to true, the rendering does not change, however the display object performs pixel snapping automatically. The animation speed can be significantly faster depending on the complexity of the vector content.

The cacheAsBitmap property is automatically set to true whenever you apply a filter to a display object (when its filter array is not empty), and if a display object has a filter applied to it, cacheAsBitmap is reported as true for that display object, even if you set the property to false. If you clear all filters for a display object, the cacheAsBitmap setting changes to what it was last set to.

A display object does not use a bitmap even if the cacheAsBitmap property is set to true and instead renders from vector data in the following cases:

The cacheAsBitmap property is best used with movie clips that have mostly static content and that do not scale and rotate frequently. With such movie clips, cacheAsBitmap can lead to performance increases when the movie clip is translated (when its x and y position is changed).



Implementation
    public function get cacheAsBitmap():Boolean
    public function set cacheAsBitmap(value:Boolean):void
filtersproperty 
filters:Array

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

An indexed array that contains each filter object currently associated with the display object. The flash.filters package contains several classes that define specific filters you can use.

Filters can be applied in the Flash authoring tool at design time, or at run time by using ActionScript code. To apply a filter by using ActionScript, you must make a temporary copy of the entire filters array, modify the temporary array, then assign the value of the temporary array back to the filters array. You cannot directly add a new filter object to the filters array.

To add a filter by using ActionScript, perform the following steps (assume that the target display object is named myDisplayObject):

  1. Create a new filter object by using the constructor method of your chosen filter class.
  2. Assign the value of the myDisplayObject.filters array to a temporary array, such as one named myFilters.
  3. Add the new filter object to the myFilters temporary array.
  4. Assign the value of the temporary array to the myDisplayObject.filters array.

If the filters array is undefined, you do not need to use a temporary array. Instead, you can directly assign an array literal that contains one or more filter objects that you create. The first example in the Examples section adds a drop shadow filter by using code that handles both defined and undefined filters arrays.

To modify an existing filter object, you must use the technique of modifying a copy of the filters array:

  1. Assign the value of the filters array to a temporary array, such as one named myFilters.
  2. Modify the property by using the temporary array, myFilters. For example, to set the quality property of the first filter in the array, you could use the following code: myFilters[0].quality = 1;
  3. Assign the value of the temporary array to the filters array.

At load time, if a display object has an associated filter, it is marked to cache itself as a transparent bitmap. From this point forward, as long as the display object has a valid filter list, the player caches the display object as a bitmap. This source bitmap is used as a source image for the filter effects. Each display object usually has two bitmaps: one with the original unfiltered source display object and another for the final image after filtering. The final image is used when rendering. As long as the display object does not change, the final image does not need updating.

The flash.filters package includes classes for filters. For example, to create a DropShadow filter, you would write:

     import flash.filters.DropShadowFilter
     var myFilter:DropShadowFilter = new DropShadowFilter (distance, angle, color, alpha, blurX, blurY, quality, inner, knockout)
     

You can use the is operator to determine the type of filter assigned to each index position in the filter array. For example, the following code shows how to determine the position of the first filter in the filters array that is a DropShadowFilter:

     import flash.text.TextField;
     import flash.filters.*;
     var tf:TextField = new TextField();
     var filter1:DropShadowFilter = new DropShadowFilter();
     var filter2:GradientGlowFilter = new GradientGlowFilter();
     tf.filters = [filter1, filter2];
     
     tf.text = "DropShadow index: " + filterPosition(tf, DropShadowFilter).toString(); // 0
     addChild(tf)
     
     function filterPosition(displayObject:DisplayObject, filterClass:Class):int {
         for (var i:uint = 0; i < displayObject.filters.length; i++) {
             if (displayObject.filters[i] is filterClass) {
                 return i;
             }
         }
         return -1;
     }
     

Note: Since you cannot directly add a new filter object to the DisplayObject.filters array, the following code has no effect on the target display object, named myDisplayObject:

     myDisplayObject.filters.push(myDropShadow);
     



Implementation
    public function get filters():Array
    public function set filters(value:Array):void
heightproperty 
height:Number

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

Indicates the height of the display object, in pixels. The height is calculated based on the bounds of the content of the display object. When you set the height property, the scaleY property is adjusted accordingly, as shown in the following code:

    var rect:Shape = new Shape();
    rect.graphics.beginFill(0xFF0000);
    rect.graphics.drawRect(0, 0, 100, 100);
    trace(rect.scaleY) // 1;
    rect.height = 200;
    trace(rect.scaleY) // 2;

Except for TextField and Video objects, a display object with no content (such as an empty sprite) has a height of 0, even if you try to set height to a different value.



Implementation
    public function get height():Number
    public function set height(value:Number):void
loaderInfoproperty 
loaderInfo:LoaderInfo  [read-only]

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

Returns a LoaderInfo object containing information about loading the file to which this display object belongs. The loaderInfo property is defined only for the root display object of a SWF file or for a loaded Bitmap (not for a Bitmap that is drawn with ActionScript). To find the loaderInfo object associated with the SWF file that contains a display object named myDisplayObject, use myDisplayObject.root.loaderInfo.

A large SWF file can monitor its download by calling this.root.loaderInfo.addEventListener(Event.COMPLETE, func).



Implementation
    public function get loaderInfo():LoaderInfo
maskproperty 
mask:DisplayObject

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

The calling display object is masked by the specified mask object. To ensure that masking works when the Stage is scaled, the mask display object must be in an active part of the display list. The mask object itself is not drawn. Set mask to null to remove the mask.

To be able to scale a mask object, it must be on the display list. To be able to drag a mask Sprite object (by calling its startDrag() method), it must be on the display list. To call the startDrag() method for a mask sprite based on a mouseDown event being dispatched by the sprite, set the sprite's buttonMode property to true.

Note: A single mask object cannot be used to mask more than one calling display object. When the mask is assigned to a second display object, it is removed as the mask of the first object, and that object's mask property becomes null.



Implementation
    public function get mask():DisplayObject
    public function set mask(value:DisplayObject):void
measuredHeightproperty 
measuredHeight:Number  [read-only]

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

The measured height of this object.

This is typically hard-coded for graphical skins because this number is simply the number of pixels in the graphic. For code skins, it can also be hard-coded if you expect to be drawn at a certain size. If your size can change based on properties, you may want to also be an ILayoutManagerClient so a measure() method will be called at an appropriate time, giving you an opportunity to compute a measuredHeight.



Implementation
    public function get measuredHeight():Number
measuredWidthproperty 
measuredWidth:Number  [read-only]

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

The measured width of this object.

This is typically hard-coded for graphical skins because this number is simply the number of pixels in the graphic. For code skins, it can also be hard-coded if you expect to be drawn at a certain size. If your size can change based on properties, you may want to also be an ILayoutManagerClient so a measure() method will be called at an appropriate time, giving you an opportunity to compute a measuredHeight.



Implementation
    public function get measuredWidth():Number
mouseXproperty 
mouseX:Number  [read-only]

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

Indicates the x coordinate of the mouse position, in pixels.

Note: For a DisplayObject that has been rotated, the returned x coordinate will reflect the non-rotated object.



Implementation
    public function get mouseX():Number
mouseYproperty 
mouseY:Number  [read-only]

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

Indicates the y coordinate of the mouse position, in pixels.

Note: For a DisplayObject that has been rotated, the returned y coordinate will reflect the non-rotated object.



Implementation
    public function get mouseY():Number
nameproperty 
name:String

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

Indicates the instance name of the DisplayObject. The object can be identified in the child list of its parent display object container by calling the getChildByName() method of the display object container.



Implementation
    public function get name():String
    public function set name(value:String):void
opaqueBackgroundproperty 
opaqueBackground:Object

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

Specifies whether the display object is opaque with a certain background color. A transparent bitmap contains alpha channel data and is drawn transparently. An opaque bitmap has no alpha channel (and renders faster than a transparent bitmap). If the bitmap is opaque, you specify its own background color to use.

If set to a number value, the surface is opaque (not transparent) with the RGB background color that the number specifies. If set to null (the default value), the display object has a transparent background.

The opaqueBackground property is intended mainly for use with the cacheAsBitmap property, for rendering optimization. For display objects in which the cacheAsBitmap property is set to true, setting opaqueBackground can improve rendering performance.

The opaque background region is not matched when calling the hitTestPoint() method with the shapeFlag parameter set to true.

The opaque background region does not respond to mouse events.



Implementation
    public function get opaqueBackground():Object
    public function set opaqueBackground(value:Object):void
parentproperty 
parent:DisplayObjectContainer  [read-only]

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

Indicates the DisplayObjectContainer object that contains this display object. Use the parent property to specify a relative path to display objects that are above the current display object in the display list hierarchy.

You can use parent to move up multiple levels in the display list as in the following:

     this.parent.parent.alpha = 20;
     



Implementation
    public function get parent():DisplayObjectContainer
rootproperty 
root:DisplayObject  [read-only]

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

For a display object in a loaded SWF file, the root property is the top-most display object in the portion of the display list's tree structure represented by that SWF file. For a Bitmap object representing a loaded image file, the root property is the Bitmap object itself. For the instance of the main class of the first SWF file loaded, the root property is the display object itself. The root property of the Stage object is the Stage object itself. The root property is set to null for any display object that has not been added to the display list, unless it has been added to a display object container that is off the display list but that is a child of the top-most display object in a loaded SWF file.

For example, if you create a new Sprite object by calling the Sprite() constructor method, its root property is null until you add it to the display list (or to a display object container that is off the display list but that is a child of the top-most display object in a SWF file).

For a loaded SWF file, even though the Loader object used to load the file may not be on the display list, the top-most display object in the SWF file has its root property set to itself. The Loader object does not have its root property set until it is added as a child of a display object for which the root property is set.



Implementation
    public function get root():DisplayObject
rotationproperty 
rotation:Number

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

Indicates the rotation of the DisplayObject instance, in degrees, from its original orientation. Values from 0 to 180 represent clockwise rotation; values from 0 to -180 represent counterclockwise rotation. Values outside this range are added to or subtracted from 360 to obtain a value within the range. For example, the statement my_video.rotation = 450 is the same as my_video.rotation = 90.



Implementation
    public function get rotation():Number
    public function set rotation(value:Number):void
scale9Gridproperty 
scale9Grid:Rectangle

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

The current scaling grid that is in effect. If set to null, the entire display object is scaled normally when any scale transformation is applied.

When you define the scale9Grid property, the display object is divided into a grid with nine regions based on the scale9Grid rectangle, which defines the center region of the grid. The eight other regions of the grid are the following areas:

You can think of the eight regions outside of the center (defined by the rectangle) as being like a picture frame that has special rules applied to it when scaled.

When the scale9Grid property is set and a display object is scaled, all text and gradients are scaled normally; however, for other types of objects the following rules apply:

If a display object is rotated, all subsequent scaling is normal (and the scale9Grid property is ignored).

For example, consider the following display object and a rectangle that is applied as the display object's scale9Grid:

display object image

The display object.

display object scale 9 region

The red rectangle shows the scale9Grid.

When the display object is scaled or stretched, the objects within the rectangle scale normally, but the objects outside of the rectangle scale according to the scale9Grid rules:

Scaled to 75%:display object at 75%
Scaled to 50%:display object at 50%
Scaled to 25%:display object at 25%
Stretched horizontally 150%: display stretched 150%

A common use for setting scale9Grid is to set up a display object to be used as a component, in which edge regions retain the same width when the component is scaled.



Implementation
    public function get scale9Grid():Rectangle
    public function set scale9Grid(value:Rectangle):void
scaleXproperty 
scaleX:Number

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

Indicates the horizontal scale (percentage) of the object as applied from the registration point. The default registration point is (0,0). 1.0 equals 100% scale.

Scaling the local coordinate system changes the x and y property values, which are defined in whole pixels.



Implementation
    public function get scaleX():Number
    public function set scaleX(value:Number):void
scaleYproperty 
scaleY:Number

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

Indicates the vertical scale (percentage) of an object as applied from the registration point of the object. The default registration point is (0,0). 1.0 is 100% scale.

Scaling the local coordinate system changes the x and y property values, which are defined in whole pixels.



Implementation
    public function get scaleY():Number
    public function set scaleY(value:Number):void
scrollRectproperty 
scrollRect:Rectangle

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

The scroll rectangle bounds of the display object. The display object is cropped to the size defined by the rectangle, and it scrolls within the rectangle when you change the x and y properties of the scrollRect object.

The properties of the scrollRect Rectangle object use the display object's coordinate space and are scaled just like the overall display object. The corner bounds of the cropped window on the scrolling display object are the origin of the display object (0,0) and the point defined by the width and height of the rectangle. They are not centered around the origin, but use the origin to define the upper-left corner of the area. A scrolled display object always scrolls in whole pixel increments.

You can scroll an object left and right by setting the x property of the scrollRect Rectangle object. You can scroll an object up and down by setting the y property of the scrollRect Rectangle object. If the display object is rotated 90° and you scroll it left and right, the display object actually scrolls up and down.



Implementation
    public function get scrollRect():Rectangle
    public function set scrollRect(value:Rectangle):void
stageproperty 
stage:Stage  [read-only]

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

The Stage of the display object. A Flash application has only one Stage object. For example, you can create and load multiple display objects into the display list, and the stage property of each display object refers to the same Stage object (even if the display object belongs to a loaded SWF file).

If a display object is not added to the display list, its stage property is set to null.



Implementation
    public function get stage():Stage
transformproperty 
transform:flash.geom:Transform

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

An object with properties pertaining to a display object's matrix, color transform, and pixel bounds. The specific properties — matrix, colorTransform, and three read-only properties (concatenatedMatrix, concatenatedColorTransform, and pixelBounds) — are described in the entry for the Transform class.

Each of the transform object's properties is itself an object. This concept is important because the only way to set new values for the matrix or colorTransform objects is to create a new object and copy that object into the transform.matrix or transform.colorTransform property.

For example, to increase the tx value of a display object's matrix, you must make a copy of the entire matrix object, then copy the new object into the matrix property of the transform object:


    var myMatrix:Matrix = myDisplayObject.transform.matrix;  
    myMatrix.tx += 10; 
    myDisplayObject.transform.matrix = myMatrix;  
    

You cannot directly set the tx property. The following code has no effect on myDisplayObject:


    myDisplayObject.transform.matrix.tx += 10;
    

You can also copy an entire transform object and assign it to another display object's transform property. For example, the following code copies the entire transform object from myOldDisplayObj to myNewDisplayObj:

myNewDisplayObj.transform = myOldDisplayObj.transform;

The resulting display object, myNewDisplayObj, now has the same values for its matrix, color transform, and pixel bounds as the old display object, myOldDisplayObj.



Implementation
    public function get transform():flash.geom:Transform
    public function set transform(value:flash.geom:Transform):void
visibleproperty 
visible:Boolean

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

Whether or not the display object is visible. Display objects that are not visible are disabled. For example, if visible=false for an InteractiveObject instance, it cannot be clicked.



Implementation
    public function get visible():Boolean
    public function set visible(value:Boolean):void
widthproperty 
width:Number

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

Indicates the width of the display object, in pixels. The width is calculated based on the bounds of the content of the display object. When you set the width property, the scaleX property is adjusted accordingly, as shown in the following code:

    var rect:Shape = new Shape();
    rect.graphics.beginFill(0xFF0000);
    rect.graphics.drawRect(0, 0, 100, 100);
    trace(rect.scaleX) // 1;
    rect.width = 200;
    trace(rect.scaleX) // 2;

Except for TextField and Video objects, a display object with no content (such as an empty sprite) has a width of 0, even if you try to set width to a different value.



Implementation
    public function get width():Number
    public function set width(value:Number):void
xproperty 
x:Number

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

Indicates the x coordinate of the DisplayObject instance relative to the local coordinates of the parent DisplayObjectContainer. If the object is inside a DisplayObjectContainer that has transformations, it is in the local coordinate system of the enclosing DisplayObjectContainer. Thus, for a DisplayObjectContainer rotated 90° counterclockwise, the DisplayObjectContainer's children inherit a coordinate system that is rotated 90° counterclockwise. The object's coordinates refer to the registration point position.



Implementation
    public function get x():Number
    public function set x(value:Number):void
yproperty 
y:Number

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

Indicates the y coordinate of the DisplayObject instance relative to the local coordinates of the parent DisplayObjectContainer. If the object is inside a DisplayObjectContainer that has transformations, it is in the local coordinate system of the enclosing DisplayObjectContainer. Thus, for a DisplayObjectContainer rotated 90° counterclockwise, the DisplayObjectContainer's children inherit a coordinate system that is rotated 90° counterclockwise. The object's coordinates refer to the registration point position.



Implementation
    public function get y():Number
    public function set y(value:Number):void
Method Detail
getBounds()method
public function getBounds(targetCoordinateSpace:DisplayObject):Rectangle

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

Returns a rectangle that defines the area of the display object relative to the coordinate system of the targetCoordinateSpace object. Consider the following code, which shows how the rectangle returned can vary depending on the targetCoordinateSpace parameter that you pass to the method:

     var container:Sprite = new Sprite();
     container.x = 100;
     container.y = 100;
     this.addChild(container);
     var contents:Shape = new Shape();
     contents.graphics.drawCircle(0,0,100);
     container.addChild(contents);
     trace(contents.getBounds(container));
      // (x=-100, y=-100, w=200, h=200)
     trace(contents.getBounds(this));
      // (x=0, y=0, w=200, h=200)
     

Note: Use the localToGlobal() and globalToLocal() methods to convert the display object's local coordinates to display coordinates, or display coordinates to local coordinates, respectively.

The getBounds() method is similar to the getRect() method; however, the Rectangle returned by the getBounds() method includes any strokes on shapes, whereas the Rectangle returned by the getRect() method does not. For an example, see the description of the getRect() method.

Parameters

targetCoordinateSpace:DisplayObject — The display object that defines the coordinate system to use.

Returns
Rectangle — The rectangle that defines the area of the display object relative to the targetCoordinateSpace object's coordinate system.
getRect()method 
public function getRect(targetCoordinateSpace:DisplayObject):Rectangle

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

Returns a rectangle that defines the boundary of the display object, based on the coordinate system defined by the targetCoordinateSpace parameter, excluding any strokes on shapes. The values that the getRect() method returns are the same or smaller than those returned by the getBounds() method.

Note: Use localToGlobal() and globalToLocal() methods to convert the display object's local coordinates to Stage coordinates, or Stage coordinates to local coordinates, respectively.

Parameters

targetCoordinateSpace:DisplayObject — The display object that defines the coordinate system to use.

Returns
Rectangle — The rectangle that defines the area of the display object relative to the targetCoordinateSpace object's coordinate system.
globalToLocal()method 
public function globalToLocal(point:Point):Point

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

Converts the point object from the Stage (global) coordinates to the display object's (local) coordinates.

To use this method, first create an instance of the Point class. The x and y values that you assign represent global coordinates because they relate to the origin (0,0) of the main display area. Then pass the Point instance as the parameter to the globalToLocal() method. The method returns a new Point object with x and y values that relate to the origin of the display object instead of the origin of the Stage.

Parameters

point:Point — An object created with the Point class. The Point object specifies the x and y coordinates as properties.

Returns
Point — A Point object with coordinates relative to the display object.
hitTestObject()method 
public function hitTestObject(obj:DisplayObject):Boolean

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

Evaluates the bounding box of the display object to see if it overlaps or intersects with the bounding box of the obj display object.

Parameters

obj:DisplayObject — The display object to test against.

Returns
Booleantrue if the bounding boxes of the display objects intersect; false if not.
hitTestPoint()method 
public function hitTestPoint(x:Number, y:Number, shapeFlag:Boolean = false):Boolean

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

Evaluates the display object to see if it overlaps or intersects with the point specified by the x and y parameters. The x and y parameters specify a point in the coordinate space of the Stage, not the display object container that contains the display object (unless that display object container is the Stage).

Parameters

x:Number — The x coordinate to test against this object.
 
y:Number — The y coordinate to test against this object.
 
shapeFlag:Boolean (default = false) — Whether to check against the actual pixels of the object (true) or the bounding box (false).

Returns
Booleantrue if the display object overlaps or intersects with the specified point; false otherwise.
localToGlobal()method 
public function localToGlobal(point:Point):Point

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

Converts the point object from the display object's (local) coordinates to the Stage (global) coordinates.

This method allows you to convert any given x and y coordinates from values that are relative to the origin (0,0) of a specific display object (local coordinates) to values that are relative to the origin of the Stage (global coordinates).

To use this method, first create an instance of the Point class. The x and y values that you assign represent local coordinates because they relate to the origin of the display object.

You then pass the Point instance that you created as the parameter to the localToGlobal() method. The method returns a new Point object with x and y values that relate to the origin of the Stage instead of the origin of the display object.

Parameters

point:Point — The name or identifier of a point created with the Point class, specifying the x and y coordinates as properties.

Returns
Point — A Point object with coordinates relative to the Stage.
move()method 
public function move(x:Number, y:Number):void

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

Moves this object to the specified x and y coordinates.

Parameters

x:Number — The new x-position for this object.
 
y:Number — The new y-position for this object.

setActualSize()method 
public function setActualSize(newWidth:Number, newHeight:Number):void

Language Version: ActionScript 3.0
Product Version: Flex 3
Runtime Versions: Flash Player 9, AIR 1.1

Sets the actual size of this object.

This method is mainly for use in implementing the updateDisplayList() method, which is where you compute this object's actual size based on its explicit size, parent-relative (percent) size, and measured size. You then apply this actual size to the object by calling setActualSize().

In other situations, you should be setting properties such as width, height, percentWidth, or percentHeight rather than calling this method.

Parameters

newWidth:Number — The new width for this object.
 
newHeight:Number — The new height for this object.