foggy forest/orchard
hover mouse for options
/**
* Copyright yonatan ( http://wonderfl.net/user/yonatan )
* MIT License ( http://www.opensource.org/licenses/mit-license.php )
* Downloaded from: http://wonderfl.net/c/Akqa
*/
// forked from yonatan's fake infinity
// forked from yonatan's 1089 more trees
package {
import flash.display.*;
import flash.events.*;
import flash.geom.*;
import flash.utils.*;
import com.bit101.components.*;
[SWF(width="465", height="465", frameRate="60")]
public class main extends Sprite {
public static const VS:int = 465; // viewport size
public static const HVS:int = VS/2;
public static const SS:int = 465; // stage size
public static const HSS:int = SS/2;
private const LINE_WIDTH_FACTOR:Number = 0.5;
private const HALF_LINE_WIDTH_FACTOR:Number = 0.5 * LINE_WIDTH_FACTOR;
private const BRANCH_SCALE:Number = 0.85;//0.74;
private const INIT_SIZE:Number = 120;
private const GRID_CELLS:Number = 30;
private const CELL_SIZE:Number = 350;
private var sigl:SiGLCore = new SiGLCore(VS, VS);
private var treeModifier:Number = 0;
private var randomness:Number = 0.5;
private var cbDrawAll:CheckBox;
private var cbDraw:CheckBox;
private var camSpeed:Number = 0.33;
private var cam:SiGLMatrix = new SiGLMatrix;
private var lastFrameTime:int = 0;
private var minThickness:Number = 2;
private var targetFPS:int = 24;
private var maskAlpha:Number = 0.5;//1;
private var mt:Label;
private var mtx:Matrix = new Matrix; // temp matrix
private var tv:Vector3D = new Vector3D;
private var ui:Sprite = new Sprite;
private var lines:Vector.<Line> = new Vector.<Line>;
public function main() {
stage.quality = "medium";
//stage.scaleMode = "noScale";
x = y = HSS;
addChild(ui);
//sigl.fieldOfView = 50;
sigl.setZRange(-1000, 1000 + GRID_CELLS/2 * CELL_SIZE);
addEventListener("enterFrame", onEnterFrame);
var uix:int = -HSS+5, uiy:int = -HSS+5;
var that:main = this;
function _slider(txt:String, valVar:String, min:Number, max:Number, val:Number):void {
var s:HUISlider = new HUISlider(ui, uix, uiy, txt, function(e:Event):void { that[valVar] = e.target.value; });
s.minimum = min; s.maximum = max; that[valVar] = s.value = val; uiy += 16;
}
// cbDrawAll = new CheckBox(ui, uix, uiy, "Draw all computed branches (incl. clipped ones)"); uiy += 16;
// cbDraw = new CheckBox(ui, uix, uiy, "Draw"); uiy += 16;
// cbDraw.selected = true;
_slider("Target FPS", "targetFPS", 6, 40, 20);
_slider("Orchard/Forest", "randomness", 0, 1, 0);
_slider("Tree Modifier", "treeModifier", -1, 3, 0);
// _slider("Mask alpha", "maskAlpha", 0.5, 1, 1);
new FPSMeter(ui, HSS-100, -HSS+5);
mt = new Label(ui, HSS-100, -HSS+5+18);
ui.graphics.beginFill(0xffcccc, 0.9);
ui.graphics.drawRect(-HSS, -HSS, SS, 60);
ui.graphics.endFill();
stage.addEventListener(MouseEvent.MOUSE_MOVE, function(e:*):void { ui.visible = true; });
stage.addEventListener(Event.MOUSE_LEAVE, function(e:*):void { ui.visible = false; });
ui.visible = false;
}
private function onEnterFrame(e:Event):void {
var t:int = getTimer();
var renderTime:int = t - lastFrameTime;
lastFrameTime = t;
var timeDiff:Number = Math.abs(renderTime - 1000/targetFPS);
if(timeDiff > 200/targetFPS) { // don't adjust unless we have to (reduces flicker)
minThickness *= (renderTime > 1000/targetFPS) ? 1.1 : 0.9;
if(minThickness < 1.5) minThickness = 1.5;
}
mt.text = "Min. thickness: " + minThickness.toFixed(2);
graphics.clear();
var cx:Number = Math.sin(t/(5678/camSpeed)) * 1500;
var cz:Number = Math.cos(t/(4567/camSpeed)) * 1500;
var cy:Number = Math.cos(t/(3456/camSpeed)) * 500 - 500;
var camrz:Number = 15 * Math.sin(t/(3456/2/camSpeed));
cam.id().prependTranslation(cx, cy, cz);
cam.lookAt(cx,cy,cz, 0,-INIT_SIZE/BRANCH_SCALE,0, 0,1,0, 1);
cam.appendRotation(camrz, Vector3D.Z_AXIS);
sigl.setCameraMatrix(cam);
tv.setTo(-cx, 0, -cz);
tv.normalize();
tv.scaleBy(sigl.zFar);
tv.x += cx;
tv.z += cz;
sigl.id().m(sigl.projectionMatrix).t(tv.x, tv.y, tv.z);
projxy(tv);
mtx.createGradientBox(VS, VS, -Math.PI/2 + camrz/180*Math.PI, -HVS + tv.x, -HVS + tv.y);
graphics.beginGradientFill("linear",[0xffffff,0xf0f0f0,0xffffff],[1,1,1],[128,132,160],mtx,"pad","rgb",0);
graphics.drawRect(-HVS, -HVS, VS, VS);
graphics.endFill();
sigl.id().m(sigl.modelViewProjectionMatrix); // work in projected space, no need to transform in projxy()...
var rnd:Number = 0;
var i:int = 0;
var halfSide:Number = GRID_CELLS/2 * CELL_SIZE;
for(var x:int = -halfSide; x <= halfSide; x += CELL_SIZE) {
for(var z:int = -halfSide; z <= halfSide; z += CELL_SIZE) {
rnd = (rnd * 1664525 + 1013904223) & 0xffffffff;
var r1:Number = rnd/0xffffffff * randomness;
rnd = (rnd * 1664525 + 1013904223) & 0xffffffff;
var r2:Number = rnd/0xffffffff * randomness;
var h:Number = r1 * 0.5 + 0.75;
var w:Number = (1-r1) * 0.5 + 0.75;
sigl.push().t(x + CELL_SIZE * 0.75 * r1, 0, z + CELL_SIZE * 0.75 * r2).r(rnd, Vector3D.Y_AXIS).s(w,h,w);
tree(INIT_SIZE);
sigl.pop();
}
}
lines.sort(Line.comparator);
for(i=0; i<lines.length; i++) {
lines[i].draw(graphics);
Line.free(lines[i]);
}
lines.length = 0;
// // horizon marker
// graphics.beginFill(0xff0000);
// graphics.drawCircle(tv.x, tv.y, 2);
// graphics.endFill();
graphics.lineStyle();
graphics.beginFill(0xa0a0a0, cbDrawAll && cbDrawAll.selected ? 0.5 : 1); // maskAlpha);
graphics.drawRect(-HSS, -HSS, SS, SS);
graphics.drawRect(-HVS, -HVS, VS, VS);
graphics.endFill();
}
private function projxy(v:Vector3D):void {
sigl.matrix.copyColumnTo(3, v);
v.x /= v.w;
v.y /= v.w;
}
private var p1:Vector3D = new Vector3D, p2:Vector3D = new Vector3D;
private function tree(size:Number):void {
sigl.push();
projxy(p1);
var limit:Number = size * 7.8431372549019605;//size/BRANCH_SCALE / (1 - BRANCH_SCALE);
var xl:Number = HVS+limit/p1.w;
var yl:Number = HVS+limit/p1.w;
if(p1.z > sigl.zNear-limit && p1.z < sigl.zFar//+limit
&& p1.x > -xl && p1.x < xl
&& p1.y > -yl && p1.y < yl
) {
size *= BRANCH_SCALE;
sigl.t(0, -size, 0);
projxy(p2);
var midW:Number = (p1.w+p2.w) * 0.5;
var thickness:Number = size * LINE_WIDTH_FACTOR / midW;
// crude clipping
var cs:Number = HVS + thickness * 0.5;
var isClipped:Boolean =
(p1.x < -cs && p2.x < -cs) ||
(p1.x > cs && p2.x > cs) ||
(p1.y < -cs && p2.y < -cs) ||
(p1.y > cs && p2.y > cs) ||
// p1.z < sigl.zNear || p2.z < sigl.zNear ||
p1.w<0 || p2.w<0 ||
// p1.z > sigl.zFar || p2.z > sigl.zFar
p1.w > p1.z || p2.w > p2.z
;
if(thickness > minThickness) {
if((cbDrawAll && cbDrawAll.selected) || !isClipped) {
if(!cbDraw || cbDraw.selected) {
var alpha:Number = 1;//Math.min(1, thickness-minThickness);//thickness/minThickness-1;
var color:uint = int(0x10 + 0xe0*(1-Math.pow(1-p2.z/sigl.zFar, 3)))*0x10101;
lines.push(Line.alloc(p1.x, p1.y, size * HALF_LINE_WIDTH_FACTOR / p1.w, p2.x, p2.y, size * HALF_LINE_WIDTH_FACTOR / p2.w * BRANCH_SCALE, midW, color, alpha));
}
}
sigl.r(221, Vector3D.Y_AXIS);
tree(size);
var s:Number = 0.7;
sigl.t(0,size*-treeModifier,0).r(40, Vector3D.X_AXIS).s(1.33,0.5,1.33);
tree(size*0.7764705882352941);//tree(size/BRANCH_SCALE*0.66);
}
}
sigl.pop();
}
}
}
import flash.display.*;
import flash.geom.*;
class Line {
static private var _freeList:Vector.<Line> = new Vector.<Line>();
public var x1:Number, y1:Number, t1:Number, x2:Number, y2:Number, t2:Number, z:Number, color:Number, alpha:Number;
public static function free(line:Line):void { _freeList.push(line); }
public static function alloc(x1:Number, y1:Number, t1:Number, x2:Number, y2:Number, t2:Number, z:Number, color:Number, alpha:Number):Line {
var l:Line = _freeList.pop() || new Line();
l.x1 = x1; l.y1 = y1; l.t1 = t1; l.x2 = x2; l.y2 = y2; l.t2 = t2; l.z = z; l.color = color; l.alpha = alpha;
return l;
}
public static function comparator(a:Line, b:Line):Number { return a.z > b.z ? -1 : 1; }
private var cmd:Vector.<int> = new <int> [1, 2, 2, 2];
private var coord:Vector.<Number> = new Vector.<Number>(8,true);
public function draw(g:Graphics):void {
var dx:Number = x2-x1;
var dy:Number = y2-y1;
var len:Number = Math.sqrt(dx*dx+dy*dy);
dx /= len;
dy /= len;
var dxt1:Number = dx*t1, dxt2:Number = dx*t2, dyt1:Number = dy*t1, dyt2:Number = dy*t2;
coord[0] = x1-dyt1; coord[1] = y1+dxt1;
coord[2] = x1+dyt1; coord[3] = y1-dxt1;
coord[4] = x2+dyt2; coord[5] = y2-dxt2;
coord[6] = x2-dyt2; coord[7] = y2+dxt2;
g.beginFill(color,alpha);
g.drawPath(cmd, coord);
g.endFill();
}
}
// useful stuff by keim_at_Si (probably from the boolean crystals demo - http://wonderfl.net/c/vpLs )
/** SiGLCore provides basic matrix operations. */
class SiGLCore {
// variables ----------------------------------------
public var modelViewMatrix:SiGLMatrix = new SiGLMatrix(), projectionMatrix:SiGLMatrix = new SiGLMatrix();
public var viewWidth:Number, viewHeight:Number, pointSpriteFieldScale:Point = new Point();
public var defaultCameraMatrix:SiGLMatrix = new SiGLMatrix(), matrix:SiGLMatrix = modelViewMatrix;
private var _mvpMatrix:SiGLMatrix = new SiGLMatrix(), _mvpdir:Boolean, _2d:Number, _2r:Number;
private var _mag:Number, _zNear:Number, _zFar:Number, _fieldOfView:Number, _fl:Number, _alignTopLeft:Boolean = false;
// properties ----------------------------------------
public function get modelViewProjectionMatrix() : SiGLMatrix {
if (_mvpdir) {
_mvpMatrix.copyFrom(projectionMatrix);
_mvpMatrix.prepend(modelViewMatrix);
_mvpdir = false;
}
return _mvpMatrix;
}
public function get focalLength() : Number { return _fl; }
public function get zNear() : Number { return _zNear; }
public function get zFar() : Number { return _zFar; }
public function get align() : String { return (_alignTopLeft) ? "topLeft" : "center"; }
public function set align(mode:String) : void { _alignTopLeft = (mode == "topLeft"); _updateProjectionMatrix(); }
public function get matrixMode() : String { return (matrix === projectionMatrix) ? "projection" : "modelView"; }
public function set matrixMode(mode:String) : void { matrix = (mode == "projection") ? projectionMatrix : modelViewMatrix; }
public function get angleMode() : String { return (_2r == 1) ? "radian" : "degree"; }
public function set angleMode(mode:String) : void { _2d = (mode == "radian") ? 57.29577951308232 : 1; _2r = (mode == "radian") ? 1 : 0.017453292519943295; }
public function get fieldOfView() : Number { return _fieldOfView / _2r; }
public function set fieldOfView(fov:Number) : void { _fieldOfView = fov * _2r; _updateProjectionMatrix(); }
public function get magnification() : Number { return _mag; }
public function set magnification(mag:Number) : void { _mag = mag; _updateProjectionMatrix(); }
// constructor ----------------------------------------
function SiGLCore(width:Number=1, height:Number=1) {
viewWidth = width; viewHeight = height;
angleMode = "degree"; _mag = 1;
_zNear = -1000; _zFar = 200;
modelViewMatrix.identity();
_mvpdir = true;
this.fieldOfView = 60;
}
// matrix operations ----------------------------------------
public function forceUpdateMatrix() : SiGLCore { _mvpdir = true; return this; }
public function setZRange(zNear:Number=-100, zFar:Number=100) : SiGLCore { _zNear = zNear; _zFar = zFar; _updateProjectionMatrix(); return this; }
public function clear() : SiGLCore { matrix.clear(); _mvpdir = true; return this; }
public function id() : SiGLCore { matrix.id(); _mvpdir = true; return this; }
public function push() : SiGLCore { matrix.push(); return this; }
public function pop() : SiGLCore { matrix.pop(); _mvpdir = true; return this; }
public function rem() : SiGLCore { matrix.rem(); _mvpdir = true; return this; }
public function r(a:Number, axis:Vector3D, pivot:Vector3D = null) : SiGLCore { matrix.prependRotation(a*_2d, axis, pivot); matrix._invdir = _mvpdir = true; return this; }
public function s(x:Number, y:Number, z:Number=1) : SiGLCore { matrix.prependScale(x, y, z); matrix._invdir = _mvpdir = true; return this; }
public function t(x:Number, y:Number, z:Number=0) : SiGLCore { matrix.prependTranslation(x, y, z); matrix._invdir = _mvpdir = true; return this; }
public function m(mat:Matrix3D) : SiGLCore { matrix.prepend(mat); matrix._invdir = _mvpdir = true; return this; }
public function re(x:Number, y:Number, z:Number) : SiGLCore { matrix.prependRotationXYZ(x*_2r, y*_2r, z*_2r); _mvpdir = true; return this; }
public function setCameraMatrix(mat:Matrix3D=null) : SiGLCore { projectionMatrix.rem().prepend(mat || defaultCameraMatrix); _mvpdir = true; return this; }
private function _updateProjectionMatrix() : void {
var wh:Number = viewWidth / viewHeight, rev:Number = (_alignTopLeft)?-1:1;
_fl = (viewHeight * 0.5) / Math.tan(_fieldOfView * 0.5);
if (_zNear <= -_fl) _zNear = -_fl + 0.001;
projectionMatrix.clear().perspectiveFieldOfView(_fieldOfView, wh, _zNear+_fl, _zFar+_fl, -1);
pointSpriteFieldScale.setTo(projectionMatrix.rawData[0] * _fl, projectionMatrix.rawData[5] * _fl);
projectionMatrix.push();
defaultCameraMatrix.identity();
defaultCameraMatrix.prependTranslation(0, 0, -_fl);
if (_alignTopLeft) defaultCameraMatrix.prependTranslation(viewWidth* 0.5, -viewHeight * 0.5, 0);
defaultCameraMatrix.prependScale(_mag, _mag * rev, _mag * rev);
setCameraMatrix();
}
public function copyFrom(v:Vector.<Number>, i:uint = 0, t:Boolean = false) : SiGLCore { matrix.copyRawDataFrom(v, i, t); matrix._invdir = _mvpdir = true; return this; }
public function copyTo(v:Vector.<Number>, i:uint = 0, t:Boolean = false) : SiGLCore { matrix.copyRawDataTo(v, i, t); return this; }
}
/** SiGLMatrix is extention of Matrix3D with push/pop operation */
class SiGLMatrix extends Matrix3D {
internal var _invdir:Boolean = false, _inv:Matrix3D = new Matrix3D(), _stac:Vector.<Matrix3D> = new Vector.<Matrix3D>();
static private var _tv:Vector.<Number> = new Vector.<Number>(16, true), _tm:Matrix3D = new Matrix3D();
static private var _in:Vector.<Number> = new Vector.<Number>(4, true), _out:Vector.<Number> = new Vector.<Number>(4, true);
public var sp:int = 0;
public function get inverted() : Matrix3D { if (_invdir) { _inv.copyFrom(this); _inv.invert(); _invdir = false; } return _inv; }
public function forceUpdateInvertedMatrix() : SiGLMatrix { _invdir=true; return this; }
public function clear() : SiGLMatrix { sp = 0; return id(); }
public function id() : SiGLMatrix { identity(); _inv.identity(); return this; }
public function push() : SiGLMatrix {
if(_stac.length == sp) _stac.push(new Matrix3D());
_stac[sp++].copyFrom(this);
return this;
}
public function pop() : SiGLMatrix {
this.copyFrom(_stac[--sp]);
_invdir=true;
return this;
}
public function rem() : SiGLMatrix { this.copyFrom(_stac[sp-1]); _invdir=true; return this; }
public function prependRotationXYZ(rx:Number, ry:Number, rz:Number) : SiGLMatrix {
var sx:Number = Math.sin(rx), sy:Number = Math.sin(ry), sz:Number = Math.sin(rz),
cx:Number = Math.cos(rx), cy:Number = Math.cos(ry), cz:Number = Math.cos(rz);
_tv[0] = cz*cy; _tv[1] = sz*cy; _tv[2] = -sy; _tv[4] = -sz*cx+cz*sy*sx; _tv[5] = cz*cx+sz*sy*sx;
_tv[6] = cy*sx; _tv[8] = sz*sx+cz*sy*cx; _tv[9] = -cz*sx+sz*sy*cx;
_tv[10] = cy*cx; _tv[14] = _tv[13] = _tv[12] = _tv[11] = _tv[7] = _tv[3] = 0; _tv[15] = 1;
_tm.copyRawDataFrom(_tv); prepend(_tm); _invdir=true;
return this;
}
public function lookAt(cx:Number, cy:Number, cz:Number, tx:Number=0, ty:Number=0, tz:Number=0, ux:Number=0, uy:Number=1, uz:Number=0, w:Number=0) : SiGLMatrix {
var dx:Number=tx-cx, dy:Number=ty-cy, dz:Number=tz-cz, dl:Number=-1/Math.sqrt(dx*dx+dy*dy+dz*dz),
rx:Number=dy*uz-dz*uy, ry:Number=dz*ux-dx*uz, rz:Number=dx*uy-dy*ux, rl:Number= 1/Math.sqrt(rx*rx+ry*ry+rz*rz);
_tv[0] = (rx*=rl); _tv[4] = (ry*=rl); _tv[8] = (rz*=rl); _tv[12] = -(cx*rx+cy*ry+cz*rz) * w;
_tv[2] = (dx*=dl); _tv[6] = (dy*=dl); _tv[10] = (dz*=dl); _tv[14] = -(cx*dx+cy*dy+cz*dz) * w;
_tv[1] = (ux=dy*rz-dz*ry); _tv[5] = (uy=dz*rx-dx*rz); _tv[9] = (uz=dx*ry-dy*rx); _tv[13] = -(cx*ux+cy*uy+cz*uz) * w;
_tv[3] = _tv[7] = _tv[11] = 0; _tv[15] = 1; copyRawDataFrom(_tv); _invdir=true;
return this;
}
public function perspectiveFieldOfView(fieldOfViewY:Number, aspectRatio:Number, zNear:Number, zFar:Number, lh:Number=1.0) : void {
var yScale:Number = 1.0 / Math.tan(fieldOfViewY * 0.5), xScale:Number = yScale / aspectRatio;
// The matrix from adobe's PerspectiveMatrix3D one is what http://msdn.microsoft.com/en-us/library/windows/desktop/bb153308%28v=vs.85%29.aspx
// calls "compliant", but this one seems to produce a transformed w that works for my projxy(). I'm not really sure why. This might be wrong.
var n:Number = 1/((main.HVS) / Math.tan(fieldOfViewY * 0.5));
this.copyRawDataFrom(Vector.<Number>([xScale,0,0,0,0,yScale,0,0,0,0,zFar/(zFar-0)*lh,n*lh,0,0,0,0]));
}
public function transform(vector:Vector3D) : Vector3D {
_in[0] = vector.x; _in[1] = vector.y; _in[2] = vector.z; _in[3] = vector.w;
transformVectors(_in, _out); vector.setTo(_out[0], _out[1], _out[2]); vector.w = _out[3];
return vector;
}
}