In case Flash no longer exists; a copy of this site is included in the Flashpoint archive's "ultimate" collection.

Dead Code Preservation :: Archived AS3 works from wonderfl.net

forked from: VolumetricPointLight demo

/**
 * Copyright bradsedito ( http://wonderfl.net/user/bradsedito )
 * MIT License ( http://www.opensource.org/licenses/mit-license.php )
 * Downloaded from: http://wonderfl.net/c/gOaB
 */

// forked from yonatan's VolumetricPointLight demo
// forked from k3lab's Grid
package {
    import flash.display.*;
    import flash.events.*;

    [SWF(width="465", height="465", backgroundColor="0", frameRate="30")]
    public class PointLightDemo extends Sprite {
        private var fx:VolumetricPointLight;
        private var grid:Grid = new Grid;
        private var sun:SunIcon = new SunIcon;

        public function PointLightDemo():void {
            addEventListener(Event.ADDED_TO_STAGE, init);
            if(null != stage) init();
        }

        private function init(e:Event = null):void {
            removeEventListener(Event.ADDED_TO_STAGE, init);
            stage.quality = "medium";
            stage.align = "TL";
            stage.scaleMode = "noScale";
            
            var s:Sprite = new Sprite();
            s.graphics.drawCircle(0,0,50);
            s.graphics.beginFill(0x333333,.5);
            s.x = mouseX;
            s.y = mouseY;
            s.scaleX = .5;
            s.scaleY = .5;    
    //      addChildAt(s,1);
            // Create a VolumetricPointLight object, use the grid as the occlusion object.
            fx = new VolumetricPointLight(800, 600, grid, [0xc08040, 0x4080c0, 0], [1, 1, 1], [0, 20, 30]);
            // You can also specify a single color instead of gradient params, for example:
            //   fx = new VolumetricPointLight(800, 600, grid, 0xc08040);
            // is equivalent to:
            //   fx = new VolumetricPointLight(800, 600, grid, [0xc08040, 0], [1, 1], [0, 255]);

            addChild(fx);
            // Render on every frame.
            fx.startRendering();

            onResize(null);
            stage.addEventListener(Event.RESIZE, onResize);

            // Sun icon used to control light source position
            addChild(sun);
            sun.buttonMode = true;
            sun.addEventListener(MouseEvent.MOUSE_DOWN, function(e:Event):void { sun.startDrag(); });
            sun.addEventListener(MouseEvent.MOUSE_UP, function(e:Event):void { sun.stopDrag(); });
            addEventListener(Event.ENTER_FRAME, function(..._):void { fx.srcX = sun.x; fx.srcY = sun.y; });
        }

        private function onResize(e:Event):void {
            var w:Number = stage.stageWidth;
            var h:Number = stage.stageHeight;
            fx.setViewportSize(w, h);
            sun.x = fx.srcX = w/2;
            sun.y = fx.srcY = h/2;
            grid.x = w/2-232;
            grid.y = h/2-232;
        }
    }
}

import flash.display.*;
import flash.filters.*;

class SunIcon extends Sprite {
    public function SunIcon() {
        buttonMode = true;
        graphics.beginFill(0, 0);
        graphics.drawCircle(0, 0, 14);
        graphics.endFill();
        graphics.lineStyle(1, 0xffc040);
        graphics.drawCircle(0, 0, 4);
        filters = [new GlowFilter(0, 1, 4, 4, 8)];
        for(var i:int = 0; i < 10; i++) {
            var sin:Number = Math.sin(Math.PI*2*i/10);
            var cos:Number = Math.cos(Math.PI*2*i/10);
            graphics.moveTo(sin*7, cos*7);
            graphics.lineTo(sin*12, cos*12);
        }
    }
}

import flash.display.*;
import flash.events.*;
import flash.filters.*;
import flash.geom.*;

/**
* The EffectContainer class creates a volumetric light effect (also known as crepuscular or "god" rays).
* This is done in 2D with some bitmap processing of an emission object, and optionally an occlusion object.
*/
class EffectContainer extends Sprite {
    /**
    * When true a blur filter is applied to the final effect bitmap (can help when colorIntegrity == true).
    */
    public var blur:Boolean = false;
    /**
    * Selects rendering method; when set to true colors won't be distorted and performance will be
    * a little worse. Also, this might make the final output appear grainier.
    */
    public var colorIntegrity:Boolean = false;
    /**
    * Light intensity.
    */
    public var intensity:Number = 4;
    /**
    * Number of passes applied to buffer. Lower numbers mean lower quality but better performance,
    * anything above 8 is probably overkill.
    */
    public var passes:uint = 6;
    /**
    * Set this to one of the StageQuality constants to use this quality level when drawing bitmaps, or to
    * null to use the current stage quality. Mileage may vary on different platforms and player versions.
    * I think it should only be used when stage.quality is LOW (set this to BEST to get reasonable results).
    */
    public var rasterQuality:String = null;
    /**
    * Final scale of emission. Should always be more than 1.
    */
    public var scale:Number = 2;
    /**
    * Smooth scaling of the effect's final output bitmap.
    */
    public var smoothing:Boolean = true;
    /**
    * Light source x.
    * @default viewport center (set in constructor).
    */
    public var srcX:Number;
    /**
    * Light source y.
    * @default viewport center (set in constructor).
    */
    public var srcY:Number;

    protected var _blurFilter:BlurFilter = new BlurFilter(2, 2);
    protected var _emission:DisplayObject;
    protected var _occlusion:DisplayObject;
    protected var _ct:ColorTransform = new ColorTransform;
    protected var _halve:ColorTransform = new ColorTransform(0.5, 0.5, 0.5);
    protected var _occlusionLoResBmd:BitmapData;
    protected var _occlusionLoResBmp:Bitmap;
    protected var _baseBmd:BitmapData;
    protected var _bufferBmd:BitmapData;
    protected var _lightBmp:Bitmap = new Bitmap;
    protected var _bufferSize:uint = 0x8000;
    protected var _bufferWidth:uint;
    protected var _bufferHeight:uint;
    protected var _viewportWidth:uint;
    protected var _viewportHeight:uint;
    protected var _mtx:Matrix = new Matrix;

    /**
    * Creates a new effect container.
    *
    * @param width Viewport width in pixels.
    * @param height Viewport height in pixels.
    * @param emission A DisplayObject to which the effect will be applied. This object will be
    * added as a child of the container. When applying the effect the object's filters and color
    * matrix is ignored, if you want to use filters or a color matrix put your content in another
    * object and addChild it to this one instead.
    * @param occlusion An optional occlusion object, handled the same way as the emission object.
    */
    public function EffectContainer(width:uint, height:uint, emission:DisplayObject, occlusion:DisplayObject = null) {
        if(!emission) throw(new Error("emission DisplayObject must not be null."));
        addChild(_emission = emission);
        if(occlusion) addChild(_occlusion = occlusion);
        setViewportSize(width, height);
        _lightBmp.blendMode = BlendMode.ADD;
        addChild(_lightBmp);
        srcX = width / 2;
        srcY = height / 2;
    }

    /**
    * Sets the container's size. This method recreates internal buffers (slow), do not call this on
    * every frame.
    *
    * @param width Viewport width in pixels
    * @param height Viewport height in pixels
    */
    public function setViewportSize(width:uint, height:uint):void {
        _viewportWidth = width;
        _viewportHeight = height;
        scrollRect = new Rectangle(0, 0, width, height);
        _updateBuffers();
    }

    /**
    * Sets the approximate size (in pixels) of the effect's internal buffers. Smaller number means lower
    * quality and better performance. This method recreates internal buffers (slow), do not call this on
    * every frame.
    *
    * @param size Buffer size in pixels
    */
    public function setBufferSize(size:uint):void {
        _bufferSize = size;
        _updateBuffers();
    }

    protected function _updateBuffers():void {
        var aspect:Number = _viewportWidth / _viewportHeight;
        _bufferHeight = Math.max(1, Math.sqrt(_bufferSize / aspect));
        _bufferWidth  = Math.max(1, _bufferHeight * aspect);
        dispose();
        _baseBmd           = new BitmapData(_bufferWidth, _bufferHeight, false, 0);
        _bufferBmd         = new BitmapData(_bufferWidth, _bufferHeight, false, 0);
        _occlusionLoResBmd = new BitmapData(_bufferWidth, _bufferHeight, true, 0);
        _occlusionLoResBmp = new Bitmap(_occlusionLoResBmd);
    }

    /**
    * Render a single frame.
    *
    * @param e In case you want to make this an event listener.
    */
    public function render(e:Event = null):void {
        var savedQuality:String = stage.quality;
        if(rasterQuality) stage.quality = rasterQuality;
        var mul:Number = colorIntegrity ? intensity : intensity/(1<<passes);
        _ct.redMultiplier = _ct.greenMultiplier = _ct.blueMultiplier = mul;
        _drawLoResEmission();
        if(_occlusion) _eraseLoResOcclusion();
        if(rasterQuality) stage.quality = savedQuality;
        var s:Number = 1 + (scale-1) / (1 << passes);
        var tx:Number = srcX/_viewportWidth*_bufferWidth;
        var ty:Number = srcY/_viewportHeight*_bufferHeight;
        _mtx.identity();
        _mtx.translate(-tx, -ty);
        _mtx.scale(s, s);
        _mtx.translate(tx, ty);
        _lightBmp.bitmapData = _applyEffect(_baseBmd, _bufferBmd, _mtx, passes);
        _lightBmp.width = _viewportWidth;
        _lightBmp.height = _viewportHeight;
        _lightBmp.smoothing = smoothing;
    }

    /**
    * Draws a scaled-down emission on _baseBmd.
    */
    protected function _drawLoResEmission():void {
        _copyMatrix(_emission.transform.matrix, _mtx);
        _mtx.scale(_bufferWidth / _viewportWidth, _bufferHeight / _viewportHeight);
        _baseBmd.fillRect(_baseBmd.rect, 0);
        _baseBmd.draw(_emission, _mtx, colorIntegrity ? null : _ct);
    }

    /**
    * Draws a scaled-down occlusion on _occlusionLoResBmd and erases it from _baseBmd.
    */
    protected function _eraseLoResOcclusion():void {
        _occlusionLoResBmd.fillRect(_occlusionLoResBmd.rect, 0);
        _copyMatrix(_occlusion.transform.matrix, _mtx);
        _mtx.scale(_bufferWidth / _viewportWidth, _bufferHeight / _viewportHeight);
        _occlusionLoResBmd.draw(_occlusion, _mtx);
        _baseBmd.draw(_occlusionLoResBmp, null, null, BlendMode.ERASE);
    }

    /**
    * Render the effect on every frame until stopRendering is called.
    */
    public function startRendering():void {
        addEventListener(Event.ENTER_FRAME, render);
    }

    /**
    * Stop rendering on every frame.
    */
    public function stopRendering():void {
        removeEventListener(Event.ENTER_FRAME, render);
    }

    /**
    * Low-level workhorse, applies the lighting effect to a bitmap. This function modifies the src and buffer
    * bitmaps and it's mtx argument.
    *
    * @param src The BitmapData to apply the effect on.
    * @param buffer Another BitmapData object for temporary storage. Must be the same size as src.
    * @param mtx Effect matrix.
    * @param passes Number of passes to make.
    * @return A processed BitmapData object (supllied in either src or buffer) with final effect output.
    */
    protected function _applyEffect(src:BitmapData, buffer:BitmapData, mtx:Matrix, passes:uint):BitmapData {
        var tmp:BitmapData;
        while(passes--) {
            if(colorIntegrity) src.colorTransform(src.rect, _halve);
            buffer.copyPixels(src, src.rect, src.rect.topLeft);
            buffer.draw(src, mtx, null, BlendMode.ADD, null, true);
            mtx.concat(mtx);
            tmp = src; src = buffer; buffer = tmp;
        }
        if(colorIntegrity) src.colorTransform(src.rect, _ct);
        if(blur) src.applyFilter(src, src.rect, src.rect.topLeft, _blurFilter);
        return src;
    }

    /**
    * Dispose of all intermediate buffers. After calling this the EffectContainer object will be unusable.
    */
    public function dispose():void {
        if(_baseBmd) _baseBmd.dispose();
        if(_occlusionLoResBmd) _occlusionLoResBmd.dispose();
        if(_bufferBmd) _bufferBmd.dispose();
        _baseBmd = _occlusionLoResBmd = _bufferBmd = _lightBmp.bitmapData = null;
    }

    protected function _copyMatrix(src:Matrix, dst:Matrix):void {
        dst.a = src.a;
        dst.b = src.b;
        dst.c = src.c;
        dst.d = src.d;
        dst.tx = src.tx;
        dst.ty = src.ty;
    }
}

import flash.display.*;
import flash.events.*;
import flash.geom.*;

/**
* VolumetricPointLight creates a simple effect container with a gradient emission pattern.
* The gradient's center is automatically moved to the (srcX, srcY) coordinates
* and it's radius is adjusted to the length of the viewport's diagonal, so if you
* set srcX and srcY to the viewport's center then only half of the gradient colors
* will be used.
*
* <p>This should also perform a little better than EffectContainer.</p>
*/
class VolumetricPointLight extends EffectContainer {
    protected var _colors:Array;
    protected var _alphas:Array;
    protected var _ratios:Array;
    protected var _gradient:Shape = new Shape;
    protected var _gradientMtx:Matrix = new Matrix;
    protected var _gradientBmp:Bitmap = new Bitmap;
    protected var _lastSrcX:Number;
    protected var _lastSrcY:Number;
    protected var _lastIntensity:Number;
    protected var _lastColorIntegrity:Boolean = false;
    protected var _gradientLoResBmd:BitmapData;
    protected var _gradientLoResDirty:Boolean = true;

    /**
    * Creates a new effect container, with an emission created from the supplied color or gradient.
    * The constructor lets you use a shortcut syntax for creating simple single-color gradients.
    * @example The shortcut syntax:
    * <listing>new VolumetricPointLight(800, 600, occlusion, 0xc08040);</listing>
    * @example is equivalent to:
    * <listing>new VolumetricPointLight(800, 600, occlusion, [0xc08040, 0], [1, 1], [0, 255]);</listing>
    *
    * @param width Viewport width in pixels.
    * @param height Viewport height in pixels.
    * @param occlusion An occlusion object, will be overlayed above the lighting gradient and under the light effect bitmap.
    * @param colorOrGradient Either a gradient colors array, or a uint color value.
    * @param alphas Will only be used if colorOrGradient is an array. This will be passed to beginGradientFill.
    *               If not provided alphas will all be 1.
    * @param ratios Will only be used if colorOrGradient is an array. This will be passed to
    *               beginGradientFill. If colorOrGradient is an Array and ratios aren't provided default
    *               ones will be created automatically.
    */
    public function VolumetricPointLight(width:uint, height:uint, occlusion:DisplayObject, colorOrGradient:*, alphas:Array = null, ratios:Array = null) {
        if(colorOrGradient is Array) {
            _colors = colorOrGradient.concat();
            if(!ratios)    _ratios = colorOrGradient.map(function(item:*, i:int, arr:Array):int { return 0x100*i/(colorOrGradient.length+i-1) });
            if(!alphas) _alphas = _colors.map(function(..._):Number { return 1 });
        } else {
            _colors = [colorOrGradient, 0];
            _ratios = [0, 255];
        }
        super(width, height, _gradientBmp, occlusion);
        if(!occlusion) throw(new Error("An occlusion DisplayObject must be provided."));
        if(!(colorOrGradient is Array || colorOrGradient is uint)) throw(new Error("colorOrGradient must be either an Array or a uint."));
    }

    protected function _drawGradient():void {
        var size:Number = 2 * Math.sqrt(_viewportWidth*_viewportWidth + _viewportHeight*_viewportHeight);
        _gradientMtx.createGradientBox(size, size, 0, -size/2 + srcX, -size/2 + srcY);
        _gradient.graphics.clear();
        _gradient.graphics.beginGradientFill(GradientType.RADIAL, _colors, _alphas, _ratios, _gradientMtx);
        _gradient.graphics.drawRect(0, 0, _viewportWidth, _viewportHeight);
        _gradient.graphics.endFill();
        if(_gradientBmp.bitmapData) _gradientBmp.bitmapData.dispose();
        _gradientBmp.bitmapData = new BitmapData(_viewportWidth, _viewportHeight, true, 0);
        _gradientBmp.bitmapData.draw(_gradient);
    }

    /**
    * Updates the lo-res gradient bitmap if neccesary and copies it to _baseBmd.
    */
    override protected function _drawLoResEmission():void {
        if(_gradientLoResDirty) {
            super._drawLoResEmission();
            _gradientLoResBmd.copyPixels(_baseBmd, _baseBmd.rect, _baseBmd.rect.topLeft);
            _gradientLoResDirty = false;
        } else {
            _baseBmd.copyPixels(_gradientLoResBmd, _baseBmd.rect, _baseBmd.rect.topLeft);
        }
    }

    /** @inheritDoc */
    override protected function _updateBuffers():void {
        super._updateBuffers();
        _gradientLoResBmd = new BitmapData(_bufferWidth, _bufferHeight, false, 0);
        _gradientLoResDirty = true;
    }

    /** @inheritDoc */
    override public function setViewportSize(width:uint, height:uint):void {
        super.setViewportSize(width, height);
        _drawGradient();
        _gradientLoResDirty = true;
    }

    /** @inheritDoc */
    override public function render(e:Event = null):void {
        var srcChanged:Boolean = _lastSrcX != srcX || _lastSrcY != srcY;
        if(srcChanged) _drawGradient();
        _gradientLoResDirty ||= srcChanged;
        _gradientLoResDirty ||= (!colorIntegrity && (_lastIntensity != intensity));
        _gradientLoResDirty ||= (_lastColorIntegrity != colorIntegrity);
        _lastSrcX = srcX;
        _lastSrcY = srcY;
        _lastIntensity = intensity;
        _lastColorIntegrity = colorIntegrity;
        super.render(e);
    }
}

/**
* Copyright k3lab ( http://wonderfl.net/user/k3lab )
* MIT License ( http://www.opensource.org/licenses/mit-license.php )
* Downloaded from: http://wonderfl.net/c/ptmi
*/

import flash.display.Sprite;
import flash.events.Event;
import flash.geom.Matrix;
import flash.geom.Point;
class Grid extends Sprite
{
    private var test:Sprite
    private var lines:Sprite;
    private  var _pont:Point
    private  var Arrays:Array;
    private  var SQ:Array;

    private var diff:Number
    private var radian:Number
    private var diffPoint:Point
    private var Reaction:uint = 175;
    private var spring:Number = 0.3
    private var friction:Number = 0.68;
    public function Grid():void {
        if (stage) init();
        else addEventListener(Event.ADDED_TO_STAGE, init);
    }
    private function init(e:Event = null):void {
        removeEventListener(Event.ADDED_TO_STAGE, init);
        // entry point
        Arrays = []
        SQ=[]
        for (var i:int = 0; i < 6; i++ ) {
            for (var j:int = 0; j < 6; j++ ) {
                var _point:Points = new Points(95 * i, 95 * j);
                Arrays.push(_point)
                var test:Sprite = addChild(new Sprite()) as Sprite;
                test.graphics.beginFill(0x101010);
                test.graphics.drawCircle(0, 0, 20);
                test.graphics.endFill();
                SQ.push(test)
            }
        }
        lines = addChild(new Sprite()) as Sprite;
        addEventListener(Event.ENTER_FRAME, enter);
    }
    private function enter(e:Event):void {
        var mousePoint:Point = new Point(mouseX, mouseY);
        var i:int;
        for each (var _point:Points in Arrays) {
            _point.update(mousePoint,  Reaction, spring, friction);
            SQ[i].x = _point.x;
            SQ[i].y = _point.y
            i++;
        }
        lines.graphics.clear();
        lines.graphics.lineStyle (20, 0x101010, 1);
        for (var n:int = 0; n < 64; n++ ) {
            lines.graphics.beginFill(0x000000,Math.min(1,distance/350))
            lines.graphics.moveTo(SQ[n].x, SQ[n].y);
            var distance:Number = Point.distance(mousePoint, new Point(SQ[n].x+47, SQ[n].y+47));
            if (n < 30) {
                lines.graphics.lineTo( SQ[(n + 6)].x, SQ[n + 6].y);
                if(n%6){
                    lines.graphics.lineTo( SQ[(n + 5 )].x, SQ[n + 5].y);
                    lines.graphics.lineTo( SQ[(n - 1 )].x, SQ[n - 1].y);
                }
                if(n==2||n==1){
                    lines.graphics.lineTo( SQ[(n-1)].x, SQ[n - 1].y);
                    lines.graphics.lineTo(SQ[n].x, SQ[n].y);
                }
            }
        }
        lines.graphics.endFill()
    }

}


import flash.geom.Point;
class Points {
    private var localX:Number;
    private var localY:Number;
    private var vx:Number = 0;
    private var vy:Number = 0;
    private var _x:Number;
    private var _y:Number;
    public function Points(x:Number, y:Number) {
        _x = localX = x;
        _y = localY = y;
    }
    public function update(mousePoint:Point, Reaction:uint, spring:Number, friction:Number):void {
        var dx:Number;
        var dy:Number;
        var distance:Number = Point.distance(mousePoint, new Point(localX, localY));
        if (distance < Reaction) {
            var diff:Number     = distance * -1 * (Reaction - distance) / Reaction;
            var radian:Number   = Math.atan2(mousePoint.y - localY, mousePoint.x - localX);
            var diffPoint:Point = Point.polar(diff, radian);
            dx = localX + diffPoint.x;
            dy = localY + diffPoint.y;
        } else{
            dx = localX;
            dy = localY;
        }
        vx += (dx - _x) * spring;
        vy += (dy - _y) * spring;
        vx *= friction;
        vy *= friction;
        _x += vx;
        _y += vy;
    }
    public function get x():Number { return _x; }
    public function get y():Number { return _y; }
}