forked from: Old-skool LCD rendering
/**
* Copyright hacker_64wf4btn ( http://wonderfl.net/user/hacker_64wf4btn )
* MIT License ( http://www.opensource.org/licenses/mit-license.php )
* Downloaded from: http://wonderfl.net/c/niuZ
*/
// forked from keim_at_Si's Old-skool LCD rendering
// Old-skool LCD rendering
// click to display original image
//--------------------------------------------------
package {
import flash.display.*;
import flash.geom.*;
import flash.events.*;
import flash.text.*;
[SWF(width="465", height="465", backgroundColor="0", frameRate="10")]
public class main extends Sprite {
private var _lcd:LCDRender;
private var _screen:BitmapData = new BitmapData(384, 384, false, 0xffffff);
private var _bitmap:Bitmap = new Bitmap(_screen);
private var _shape:Shape = new Shape();
private var _vbuf:Vector.<Number> = new Vector.<Number>();
private var _vout:Vector.<Number> = new Vector.<Number>();
private var _uvt:Vector.<Number> = new Vector.<Number>();
private var _ibuf:Vector.<int> = new Vector.<int>();
private var _projector:Matrix3D = new Matrix3D();
private var _matrix:Matrix3D = new Matrix3D();
private var _centering:Matrix = new Matrix(1,0,0,1,192,210);
private var _rotation:Number = 20;
private var _text:TextField = new TextField();
function main() {
// create cube
for (var i:int=0; i<8; i++) {
_vbuf.push(((i<<3)&32)-16, ((i<<4)&32)-16, ((i<<5)&32)-16);
for (var j:int=0; j<3; j++)
if ((((i>>2)+(i>>1)+i)&1)==0 && (i^(1<<j))<8) _ibuf.push(i, i^(1<<j));
}
_vout.length = _vbuf.length * 2 / 3;
_uvt.length = _vbuf.length * 3;
// create projector
var proj:PerspectiveProjection = new PerspectiveProjection();
proj.fieldOfView = 60;
_projector = proj.toMatrix3D();
// intializing
addEventListener("enterFrame", _onEnterFrame);
stage.addEventListener("click", _onClick);
_text.autoSize = "left";
_text.htmlText = "<font face='_sans' color='#ffffff' size='42px'><b><u>OLD-SKOOL LCD</u></b></font>"
// LCDRender を addChild
_lcd = new LCDRender();
_bitmap.x = 40;
_bitmap.y = 40;
_bitmap.visible = false;
addChild(_bitmap);
addChild(_lcd);
}
private function _onEnterFrame(e:Event) : void {
// rendering cube on _screen
_rotation += 3;
_matrix.identity();
_matrix.appendRotation(_rotation, new Vector3D(0.707,0,0.707));
_matrix.appendTranslation(0, 0, 5);
_matrix.append(_projector);
Utils3D.projectVectors(_matrix, _vbuf, _vout, _uvt);
_shape.graphics.clear();
_shape.graphics.lineStyle(3, 0xffffff);
for (var i:int=0; i<_ibuf.length; i+=2) {
var i0:int = _ibuf[i]<<1, i1:int = _ibuf[i+1]<<1;
_shape.graphics.moveTo(_vout[i0], _vout[i0+1]);
_shape.graphics.lineTo(_vout[i1], _vout[i1+1]);
}
_screen.fillRect(_screen.rect, 0);
_screen.draw(_shape, _centering);
_screen.draw(_text);
// LCDRender.renderを呼d双す.
_lcd.render(_screen);
}
private function _onClick(e:MouseEvent) : void {
_lcd.visible = !_lcd.visible;
_bitmap.visible = !_bitmap.visible;
}
}
}
import flash.display.*;
import flash.geom.*;
import flash.filters.*;
/**
* Display the BitmapData like a old-school LCD display.
*/
class LCDRender extends Bitmap {
private var _screen:BitmapData = new BitmapData(384, 384, true, 0);
private var _display:BitmapData = new BitmapData(400, 400, false, 0);
private var _cls:BitmapData = new BitmapData(400, 400, false, 0);
private var _matS2D:Matrix = new Matrix(1,0,0,1,8,8);
private var _shadow:DropShadowFilter = new DropShadowFilter(4, 45, 0, 0.6, 6, 6);
private var _data:BitmapData = new BitmapData(96, 96, false, 0);
private var _residueMap:Vector.<Number> = new Vector.<Number>(9216, true);
private var _toneFilter:uint;
private var _dotColor:uint;
private var _residue:Number;
private var dot:Rectangle = new Rectangle(0,0,3,3);
private var mat:Matrix = new Matrix();
/**
* Create a new instance of the LCDBitmapOldSkool with setting.
* @param bit The bit count of shades of gray scale. the bit=2 sets 4 shades of gray scale.
* @param backColor The background color of display.
* @dot0Color The color for the pixel of 0.
* @dot0Color The color for the pixel of 1.
* @residue The ratio of residual image for 1 update.
*/
function LCDRender(bit:int=2,
backColor:uint = 0xb0c0b0,
dot0Color:uint = 0xb0b0b0,
dot1Color:uint = 0x000000,
residue:Number = 0.5) {
_toneFilter = 0xff00 >> bit;
_dotColor = dot1Color;
_cls.fillRect(_cls.rect, backColor);
_residue = residue;
for (dot.x=8; dot.x<392; dot.x+=4)
for (dot.y=8; dot.y<392; dot.y+=4)
_cls.fillRect(dot, dot0Color);
super(_display);
x = 32;
y = 32;
}
/**
* Rendering LCD Bitmap.
* @param source Source BitmapData rendering on the old-school LCD display.
*/
public function render(src:BitmapData) : void {
var x:int, y:int, rgb:uint, mask:uint, i:int, r:Number=96/src.width;
_data.lock();
_screen.lock();
mat.identity();
mat.scale(r, r);
_data.draw(src, mat, null, null, null, true);
_screen.fillRect(_screen.rect, 0);
for (i=0, dot.y=0, y=0; y<96; dot.y+=4, y++)
for (dot.x=0, x=0; x<96; dot.x+=4, x++, i++) {
rgb = _data.getPixel(x, y);
rgb = ((((rgb>>18)&63)+((rgb>>9)&127)+((rgb>>3)&31)) & _toneFilter) + int(_residueMap[i]);
mask = rgb & 0x100;
rgb |= mask - (mask>>8);
_residueMap[i] = (rgb&0xff) * _residue;
if (rgb) _screen.fillRect(dot, (rgb<<24) | _dotColor);
}
_screen.applyFilter(_screen, _screen.rect, _screen.rect.topLeft, _shadow);
_display.copyPixels(_cls, _cls.rect, _cls.rect.topLeft);
_display.draw(_screen, _matS2D);
_data.unlock();
_screen.unlock();
}
}