// https://sites.google.com/a/jsc-solutions.net/work/knowledge-base/15-dualvr/20150809/chrome360hz

        // https://sites.google.com/a/jsc-solutions.net/work/knowledge-base/15-dualvr/20150809/chromeequirectangularcameraexperiment

        // "x:\util\android-sdk-windows\platform-tools\adb.exe" install -r "r:\jsc.svn\examples\javascript\WebGL\WebGLVRHZTeaser\WebGLVRHZTeaser\bin\Debug\staging\WebGLVRHZTeaser.ApplicationWebService\staging.apk\staging\apk\bin\WebGLVRHZTeaser.Activities-release.apk"

        //I/Web Console(25108): 0ms NewInstanceConstructor restore fields.. at http://10.144.157.179:23222/view-source:50800
        //I/Web Console(25108): THREE.WebGLRenderer at http://10.144.157.179:23222/view-source:90370
        //E/Web Console(25108): Error creating WebGL context. at http://10.144.157.179:23222/view-source:90581
        //E/Web Console(25108): Uncaught TypeError: Cannot read property 'getShaderPrecisionFormat' of null at http://10.144.157.179:23222/view-source:90585

        /// <summary>
        /// This is a javascript application.
        /// </summary>
        /// <param name="page">HTML document rendered by the web server which can now be enhanced.</param>
        public Application(IApp page)
		{

#if false
			#region += Launched chrome.app.window
			// X:\jsc.svn\examples\javascript\chrome\apps\ChromeTCPServerAppWindow\ChromeTCPServerAppWindow\Application.cs
			dynamic self = Native.self;
			dynamic self_chrome = self.chrome;
			object self_chrome_socket = self_chrome.socket;

			if (self_chrome_socket != null)
			{

				chrome.Notification.DefaultTitle = "HZ";
				chrome.Notification.DefaultIconUrl = new HTML.Images.FromAssets.Preview().src;

				ChromeTCPServer.TheServerWithAppWindow.Invoke(AppSource.Text);

				return;
			}
			#endregion
#endif

			// https://code.google.com/p/chromium/issues/detail?id=483890

			Native.document.body.style.margin = "0px";
			Native.document.body.style.overflow = IStyle.OverflowEnum.hidden;
			Native.body.style.backgroundColor = "black";
			Native.document.body.Clear();

			// what dto do if webgl not supported?


			double SCREEN_WIDTH = Native.window.Width;
			double SCREEN_HEIGHT = Native.window.Height;

			#region scene
			var scene = new THREE.Scene();
			var clock = new THREE.Clock();

			var sceneRenderTarget = new THREE.Scene();
			var cameraOrtho = new THREE.OrthographicCamera(
				(int)SCREEN_WIDTH / -2,
				(int)SCREEN_WIDTH / 2,
				(int)SCREEN_HEIGHT / 2,
				(int)SCREEN_HEIGHT / -2,
				-100000,
				100000
			);

			cameraOrtho.position.z = 100;
			sceneRenderTarget.add(cameraOrtho);



			var camera = new THREE.PerspectiveCamera(

				//40,
				20,
				//10,

				Native.window.aspect, 2,

				// how far out do we want to zoom?
				200000
				//9000
				);
			camera.position.set(-1200, 800, 1200);
			var target = new THREE.Vector3(0, 0, 0);

			scene.add(camera);
			//scene.add(new THREE.AmbientLight(0x212121));

			//var spotLight = new THREE.SpotLight(0xffffff, 1.15);
			//spotLight.position.set(500, 2000, 0);
			//spotLight.castShadow = true;
			//scene.add(spotLight);

			//var pointLight = new THREE.PointLight(0xff4400, 1.5);
			//pointLight.position.set(0, 0, 0);
			//scene.add(pointLight);


			//scene.add(new THREE.AmbientLight(0xaaaaaa));
			scene.add(new THREE.AmbientLight(0x101030));
			#endregion


			#region light
			//var light = new THREE.DirectionalLight(0xffffff, 1.0);
			var light = new THREE.DirectionalLight(0xffffff, 2.5);
			//var light = new THREE.DirectionalLight(0xffffff, 2.5);
			//var light = new THREE.DirectionalLight(0xffffff, 1.5);
			//var lightOffset = new THREE.Vector3(0, 1000, 2500.0);
			var lightOffset = new THREE.Vector3(
				2000,
				700,

				// lower makes longer shadows 
				700.0
				);
			light.position.copy(lightOffset);
			light.castShadow = true;

			var xlight = light as dynamic;
			xlight.shadowMapWidth = 4096;
			xlight.shadowMapHeight = 2048;

			xlight.shadowDarkness = 0.1;
			//xlight.shadowDarkness = 0.5;

			xlight.shadowCameraNear = 10;
			xlight.shadowCameraFar = 10000;
			xlight.shadowBias = 0.00001;
			xlight.shadowCameraRight = 4000;
			xlight.shadowCameraLeft = -4000;
			xlight.shadowCameraTop = 4000;
			xlight.shadowCameraBottom = -4000;

			xlight.shadowCameraVisible = true;

			scene.add(light);
			#endregion



			var renderer = new THREE.WebGLRenderer(
				new
				{

					// http://stackoverflow.com/questions/20495302/transparent-background-with-three-js
					alpha = true,
					preserveDrawingBuffer = true,
					antialias = true
				}

				);
			renderer.setSize(1920, 1080);
			//renderer.setSize(2560, 1440);
			renderer.domElement.AttachToDocument();
			renderer.shadowMapEnabled = true;
			renderer.shadowMapType = THREE.PCFSoftShadowMap;



			var renderTarget = new THREE.WebGLRenderTarget(
				   Native.window.Width, Native.window.Height,
				   new
				   {
					   minFilter = THREE.LinearFilter,
					   magFilter = THREE.LinearFilter,
					   format = THREE.RGBAFormat,
					   stencilBufer = false
				   }
			   );

			//var composer = new THREE.EffectComposer(renderer, renderTarget);
			//var renderModel = new THREE.RenderPass(scene, camera);
			//composer.addPass(renderModel);

			//#region vblur
			//var hblur = new THREE.ShaderPass(THREE.HorizontalTiltShiftShader);
			//var vblur = new THREE.ShaderPass(THREE.VerticalTiltShiftShader);

			////var bluriness = 6.0;
			//var bluriness = 4.0;

			//// Show Details	Severity	Code	Description	Project	File	Line
			////Error CS0656  Missing compiler required member 'Microsoft.CSharp.RuntimeBinder.CSharpArgumentInfo.Create' WebGLTiltShift Application.cs  183

			//(hblur.uniforms as dynamic).h.value = bluriness / Native.window.Width;
			//(vblur.uniforms as dynamic).v.value = bluriness / Native.window.Height;

			//(hblur.uniforms as dynamic).r.value = 0.5;
			//(vblur.uniforms as dynamic).r.value = 0.5;
			////vblur.renderToScreen = true;

			//composer.addPass(hblur);
			//composer.addPass(vblur);
			//#endregion

			// Uncaught TypeError: renderer.setSize is not a function
			// Uncaught TypeError: renderer.getClearColor is not a function

			var effect = new THREE.OculusRiftEffect(
				renderer,

				// how to get the vblur into oculus effect?

				//renderModel,
				//composer,
				//renderTarget,
				new
				{
					worldScale = 100,

					//HMD
				}
				);

			effect.setSize(1920, 1080);
            //effect.setSize(2560, 1440);

            #region WebGLRah66Comanche
            // why isnt it being found?
            // "Z:\jsc.svn\examples\javascript\WebGL\collada\WebGLRah66Comanche\WebGLRah66Comanche\WebGLRah66Comanche.csproj"
            new global::WebGLRah66Comanche.Comanche(
			).Source.Task.ContinueWithResult(
				dae =>
				{

					//dae.position.y = -40;
					//dae.position.z = 280;
					scene.add(dae);
					//oo.Add(dae);

					// wont do it
					//dae.castShadow = true;

					dae.children[0].children[0].children.WithEach(x => x.castShadow = true);


					// the rotors?
					dae.children[0].children[0].children.Last().children.WithEach(x => x.castShadow = true);


					dae.scale.set(0.5, 0.5, 0.5);
					dae.position.x = -900;
					dae.position.z = +900;

					// raise it up
					dae.position.y = 400;

					//var sw = Stopwatch.StartNew();

					//Native.window.onframe += delegate
					//{
					//    //dae.children[0].children[0].children.Last().al
					//    //dae.children[0].children[0].children.Last().rotation.z = sw.ElapsedMilliseconds * 0.01;
					//    //dae.children[0].children[0].children.Last().rotation.x = sw.ElapsedMilliseconds * 0.01;
					//    dae.children[0].children[0].children.Last().rotation.y = sw.ElapsedMilliseconds * 0.01;
					//};
				}
			);
			#endregion



			#region tree
			// X:\jsc.svn\examples\javascript\WebGL\WebGLGodRay\WebGLGodRay\Application.cs

			var materialScene = new THREE.MeshBasicMaterial(new { color = 0x000000, shading = THREE.FlatShading });
			var tloader = new THREE.JSONLoader();

			// http://stackoverflow.com/questions/16539736/do-not-use-system-runtime-compilerservices-dynamicattribute-use-the-dynamic
			// https://msdn.microsoft.com/en-us/library/system.runtime.compilerservices.dynamicattribute%28v=vs.110%29.aspx
			//System.Runtime.CompilerServices.DynamicAttribute

			tloader.load(

				new WebGLGodRay.Models.tree().Content.src,

				new Action<THREE.Geometry>(
				xgeometry =>
				{

					var treeMesh = new THREE.Mesh(xgeometry, materialScene);
					treeMesh.position.set(0, -150, -150);
					treeMesh.position.x = -900;
					treeMesh.position.z = -900;

					treeMesh.position.y = 25;

					var tsc = 400;
					treeMesh.scale.set(tsc, tsc, tsc);

					treeMesh.matrixAutoUpdate = false;
					treeMesh.updateMatrix();


					treeMesh.AttachTo(scene);

				}
				)
				);
			#endregion

			#region create field

			// THREE.PlaneGeometry: Consider using THREE.PlaneBufferGeometry for lower memory footprint.

			// could we get some film grain?
			var planeGeometry = new THREE.CubeGeometry(512, 512, 1);
			var plane = new THREE.Mesh(planeGeometry,
					new THREE.MeshPhongMaterial(new { ambient = 0x101010, color = 0xA26D41, specular = 0xA26D41, shininess = 1 })

				);
			//plane.castShadow = false;
			plane.receiveShadow = true;


			{

				var parent = new THREE.Object3D();
				parent.add(plane);
				parent.rotation.x = -Math.PI / 2;
				parent.scale.set(10, 10, 10);

				scene.add(parent);
			}

			var random = new Random();
			var meshArray = new List<THREE.Mesh>();
			var geometry = new THREE.CubeGeometry(1, 1, 1);
			var sw = Stopwatch.StartNew();

			for (var i = 3; i < 9; i++)
			{

				//THREE.MeshPhongMaterial
				var ii = new THREE.Mesh(geometry,


					new THREE.MeshPhongMaterial(new { ambient = 0x000000, color = 0xA06040, specular = 0xA26D41, shininess = 1 })

					//new THREE.MeshLambertMaterial(
					//new
					//{
					//    color = (Convert.ToInt32(0xffffff * random.NextDouble())),
					//    specular = 0xffaaaa,
					//    ambient= 0x050505, 
					//})

					);
				ii.position.x = i % 7 * 200 - 2.5f;

				// raise it up
				ii.position.y = .5f * 100;
				ii.position.z = -1 * i * 100;
				ii.castShadow = true;
				ii.receiveShadow = true;
				//ii.scale.set(100, 100, 100 * i);
				ii.scale.set(100, 100 * i, 100);


				meshArray.Add(ii);

				scene.add(ii);

				if (i % 2 == 0)
				{
#if FWebGLHZBlendCharacter
					#region SpeedBlendCharacter
					var _i = i;
					{ WebGLHZBlendCharacter.HTML.Pages.TexturesImages ref0; }

					var blendMesh = new THREE.SpeedBlendCharacter();
					blendMesh.load(
						new WebGLHZBlendCharacter.Models.marine_anims().Content.src,
						new Action(
							delegate
							{
								// buildScene
								//blendMesh.rotation.y = Math.PI * -135 / 180;
								blendMesh.castShadow = true;
								// we cannot scale down we want our shadows
								//blendMesh.scale.set(0.1, 0.1, 0.1);

								blendMesh.position.x = (_i + 2) % 7 * 200 - 2.5f;

								// raise it up
								//blendMesh.position.y = .5f * 100;
								blendMesh.position.z = -1 * _i * 100;


								var xtrue = true;
								// run
								blendMesh.setSpeed(1.0);

								// will in turn call THREE.AnimationHandler.play( this );
								//blendMesh.run.play();
								// this wont help. bokah does not see the animation it seems.
								//blendMesh.run.update(1);

								blendMesh.showSkeleton(!xtrue);

								scene.add(blendMesh);


								Native.window.onframe +=
								 delegate
								 {

									 blendMesh.rotation.y = Math.PI * 0.0002 * sw.ElapsedMilliseconds;



									 ii.rotation.y = Math.PI * 0.0002 * sw.ElapsedMilliseconds;

								 };

							}
						)
					);
					#endregion
#endif
				}

			}
			#endregion


			#region HZCannon
			new HeatZeekerRTSOrto.HZCannon().Source.Task.ContinueWithResult(
				async cube =>
				{
					// https://github.com/mrdoob/three.js/issues/1285
					//cube.children.WithEach(c => c.castShadow = true);

					//cube.traverse(
					//    new Action<THREE.Object3D>(
					//        child =>
					//        {
					//            // does it work? do we need it?
					//            //if (child is THREE.Mesh)

					//            child.castShadow = true;
					//            //child.receiveShadow = true;

					//        }
					//    )
					//);

					// um can edit and continue insert code going back in time?
					cube.scale.x = 10.0;
					cube.scale.y = 10.0;
					cube.scale.z = 10.0;



					//cube.castShadow = true;
					//dae.receiveShadow = true;

					//cube.position.x = -100;

					////cube.position.y = (cube.scale.y * 50) / 2;
					//cube.position.z = Math.Floor((random() * 1000 - 500) / 50) * 50 + 25;



					// if i want to rotate, how do I do it?
					//cube.rotation.z = random() + Math.PI;
					//cube.rotation.x = random() + Math.PI;
					var sw2 = Stopwatch.StartNew();



					scene.add(cube);
					//interactiveObjects.Add(cube);

					// offset is wrong
					//while (true)
					//{
					//    await Native.window.async.onframe;

					//    cube.rotation.y = Math.PI * 0.0002 * sw2.ElapsedMilliseconds;

					//}
				}
			);
			#endregion


			#region HZCannon
			new HeatZeekerRTSOrto.HZCannon().Source.Task.ContinueWithResult(
				async cube =>
				{
					// https://github.com/mrdoob/three.js/issues/1285
					//cube.children.WithEach(c => c.castShadow = true);

					//cube.traverse(
					//    new Action<THREE.Object3D>(
					//        child =>
					//        {
					//            // does it work? do we need it?
					//            //if (child is THREE.Mesh)

					//            child.castShadow = true;
					//            //child.receiveShadow = true;

					//        }
					//    )
					//);

					// um can edit and continue insert code going back in time?
					cube.scale.x = 10.0;
					cube.scale.y = 10.0;
					cube.scale.z = 10.0;



					//cube.castShadow = true;
					//dae.receiveShadow = true;


					// jsc shat about out of band code patching?
					cube.position.z = 600;
					cube.position.x = -900;
					//cube.position.y = -400;

					//cube.position.x = -100;
					//cube.position.y = -400;

					////cube.position.y = (cube.scale.y * 50) / 2;
					//cube.position.z = Math.Floor((random() * 1000 - 500) / 50) * 50 + 25;



					// if i want to rotate, how do I do it?
					//cube.rotation.z = random() + Math.PI;
					//cube.rotation.x = random() + Math.PI;
					var sw2 = Stopwatch.StartNew();



					scene.add(cube);
					//interactiveObjects.Add(cube);

					// offset is wrong
					//while (true)
					//{
					//    await Native.window.async.onframe;

					//    cube.rotation.y = Math.PI * 0.0002 * sw2.ElapsedMilliseconds;

					//}
				}
			);
			#endregion


			#region HZBunker
			new HeatZeekerRTSOrto.HZBunker().Source.Task.ContinueWithResult(
					 cube =>
					 {
						 // https://github.com/mrdoob/three.js/issues/1285
						 //cube.children.WithEach(c => c.castShadow = true);
						 cube.castShadow = true;

						 //cube.traverse(
						 //    new Action<THREE.Object3D>(
						 //        child =>
						 //        {
						 //            // does it work? do we need it?
						 //            //if (child is THREE.Mesh)
						 //            child.castShadow = true;
						 //            //child.receiveShadow = true;

						 //        }
						 //    )
						 //);

						 // um can edit and continue insert code going back in time?
						 cube.scale.x = 10.0;
						 cube.scale.y = 10.0;
						 cube.scale.z = 10.0;

						 //cube.castShadow = true;
						 //dae.receiveShadow = true;

						 cube.position.x = -1000;
						 //cube.position.y = (cube.scale.y * 50) / 2;
						 cube.position.z = 0;

						 scene.add(cube);
					 }
				 );
			#endregion






			var lon0 = -45.0;
			var lon1 = 0.0;

			var lon = new sum(
				 () => lon0,
				 () => lon1
			 );

			var lat0 = 0.0;
			var lat1 = 0.0;

			// or could we do it with byref or pointers?
			var lat = new sum(
				() => lat0,
				() => lat1
			);

			var phi = 0.0;
			var theta = 0.0;

			//var controls = new THREE.OrbitControls(camera);
			var camera_rotation_z = 0.0;

			Native.window.onframe +=
				delegate
				{
					////var delta = clock.getDelta();

					//controls.update();



					var scale = 1.0;
					var delta = clock.getDelta();
					var stepSize = delta * scale;

					if (stepSize > 0)
					{
						//characterController.update(stepSize, scale);
						//gui.setSpeed(blendMesh.speed);

						THREE.AnimationHandler.update(stepSize);
					}

					//camera.position = controls.center.clone();

					//if (Native.document.pointerLockElement == Native.document.body)
					//    lon += 0.00;
					//else
					//    lon += 0.01;

					//var lat2 = Math.Max(-85, Math.Min(85, lat));

					//Native.document.title = new { lon, lat }.ToString();
					//Native.document.title = new { lon0 }.ToString();


					phi = THREE.Math.degToRad(90 - lat);
					theta = THREE.Math.degToRad(lon);

					target.x = camera.position.x + (500 * Math.Sin(phi) * Math.Cos(theta));
					target.y = camera.position.y + (500 * Math.Cos(phi));
					target.z = camera.position.z + (500 * Math.Sin(phi) * Math.Sin(theta));


					//controls.update();
					//camera.position = controls.center.clone();

					// camera beta tilt?

					camera.lookAt(target);
					camera.rotation.z += camera_rotation_z;

					//composer.render(0.1);
					//renderer.render(scene, camera);
					effect.render(scene, camera);
				};


			new { }.With(
					 async delegate
					 {
						 retry:

                         //var s = (double)Native.window.Width / 1920.0;
                         //var s = (double)Native.window.Height / Native.screen.height;
                         //var s = (double)Native.window.Height / 1440;
                         var s = (double)Native.window.Height / 1080;


						 Native.document.body.style.transform = "scale(" + s + ")";
						 Native.document.body.style.transformOrigin = "0% 0%";

						 await Native.window.async.onresize;
						 goto retry;
					 }
				   );

			// gamma -0 .. -90

			var compassHeadingOffset = 0.0;
			var compassHeadingInitialized = 0;

			#region compassHeading
			// X:\jsc.svn\examples\javascript\android\Test\TestCompassHeading\TestCompassHeading\Application.cs
			Native.window.ondeviceorientation +=
			  dataValues =>
			  {
				  // Convert degrees to radians
				  var alphaRad = dataValues.alpha * (Math.PI / 180);
				  var betaRad = dataValues.beta * (Math.PI / 180);
				  var gammaRad = dataValues.gamma * (Math.PI / 180);

				  // Calculate equation components
				  var cA = Math.Cos(alphaRad);
				  var sA = Math.Sin(alphaRad);
				  var cB = Math.Cos(betaRad);
				  var sB = Math.Sin(betaRad);
				  var cG = Math.Cos(gammaRad);
				  var sG = Math.Sin(gammaRad);

				  // Calculate A, B, C rotation components
				  var rA = -cA * sG - sA * sB * cG;
				  var rB = -sA * sG + cA * sB * cG;
				  var rC = -cB * cG;

				  // Calculate compass heading
				  var compassHeading = Math.Atan(rA / rB);

				  // Convert from half unit circle to whole unit circle
				  if (rB < 0)
				  {
					  compassHeading += Math.PI;
				  }
				  else if (rA < 0)
				  {
					  compassHeading += 2 * Math.PI;
				  }

				  /*
                  Alternative calculation (replacing lines 99-107 above):

                    var compassHeading = Math.atan2(rA, rB);

                    if(rA < 0) {
                      compassHeading += 2 * Math.PI;
                    }
                  */

				  // Convert radians to degrees
				  compassHeading *= 180 / Math.PI;

				  // Compass heading can only be derived if returned values are 'absolute'

				  // X:\jsc.svn\examples\javascript\android\Test\TestCompassHeadingWithReset\TestCompassHeadingWithReset\Application.cs

				  //Native.document.body.innerText = new { compassHeading }.ToString();
				  if (compassHeadingInitialized > 0)
				  {
					  lon1 = compassHeading - compassHeadingOffset;
				  }
				  else
				  {
					  compassHeadingOffset = compassHeading;
					  compassHeadingInitialized++;
				  }

			  };
			#endregion

			#region gamma
			Native.window.ondeviceorientation +=
				//e => Native.body.innerText = new { e.alpha, e.beta, e.gamma }.ToString();
				//e => lon = e.gamma;
				e =>
				{
					lat1 = e.gamma;

					// after servicing a running instance would be nice
					// either by patching or just re running the whole iteration in the backgrou
					camera_rotation_z = e.beta * 0.02;
				};
			#endregion



			#region camera rotation
			var old = new { clientX = 0, clientY = 0 };

			Native.document.body.ontouchstart +=
				e =>
				{
					var n = new { e.touches[0].clientX, e.touches[0].clientY };
					old = n;
				};

			Native.document.body.ontouchmove +=
					e =>
					{
						var n = new { e.touches[0].clientX, e.touches[0].clientY };

						e.preventDefault();

						lon0 += (n.clientX - old.clientX) * 0.2;
						lat0 -= (n.clientY - old.clientY) * 0.2;

						old = n;
					};


			Native.document.body.onmousemove +=
				e =>
				{
					e.preventDefault();

					if (Native.document.pointerLockElement == Native.document.body)
					{
						lon0 += e.movementX * 0.1;
						lat0 -= e.movementY * 0.1;

						//Console.WriteLine(new { lon, lat, e.movementX, e.movementY });
					}
				};


			Native.document.body.onmouseup +=
			  e =>
			  {
				  //drag = false;
				  e.preventDefault();
			  };

			Native.document.body.onmousedown +=
				e =>
				{
					//e.CaptureMouse();

					//drag = true;
					e.preventDefault();
					Native.document.body.requestPointerLock();

				};


			Native.document.body.ondblclick +=
				e =>
				{
					e.preventDefault();

					Console.WriteLine("requestPointerLock");
				};

			#endregion

			Native.body.onmousewheel +=
				e =>
				{

					camera_rotation_z += 0.1 * e.WheelDirection; ;

				};
		}
        /// <summary>
        /// This is a javascript application.
        /// </summary>
        /// <param name="page">HTML document rendered by the web server which can now be enhanced.</param>
        public Application(IApp page = null)
        {
            { THREE.SkinnedMesh ref0; }
            { THREE.SpeedBlendCharacter ref0; }

//			will skip DefineVersionInfoResource
//102c: 02:01:1e RewriteToAssembly error: System.NotSupportedException: Type 'xchrome.BCLImplementation.System.Net.Sockets.__TcpListener' was not completed.


			#region AtFormCreated
			FormStyler.AtFormCreated =
                 s =>
                 {
                     s.Context.FormBorderStyle = System.Windows.Forms.FormBorderStyle.None;

                     // this is working?
                     var x = new ChromeTCPServerWithFrameNone.HTML.Pages.AppWindowDrag().AttachTo(s.Context.GetHTMLTarget());
                 };
			#endregion

#if false
			#region ChromeTCPServer
			dynamic self = Native.self;
            dynamic self_chrome = self.chrome;
            object self_chrome_socket = self_chrome.socket;

            if (self_chrome_socket != null)
            {
                chrome.Notification.DefaultIconUrl = new HTML.Images.FromAssets.Preview().src;
                chrome.Notification.DefaultTitle = "WebGLYomotsuTPS";


                ChromeTCPServer.TheServerWithStyledForm.Invoke(
                    AppSource.Text,
                    AtFormCreated: FormStyler.AtFormCreated
                );

                return;
            }
			#endregion
#endif

			var fov = 40;

            #region container
            Native.document.body.style.overflow = IStyle.OverflowEnum.hidden;
            var container = new IHTMLDiv();

            container.AttachToDocument();
            container.style.backgroundColor = "#000000";
            container.style.SetLocation(0, 0, Native.window.Width, Native.window.Height);
            #endregion

            var player_model_objects = new THREE.Object3D();
            var player_position_x = 0.0f;
            var player_position_y = 0.0f;
            var player_position_z = 0.0f;
            var player_position_direction = 0;
            var player_camera_speed = 300;
            var player_camera_distance = 5;
            var player_camera_x = 0.0f;
            var player_camera_y = 0.0f;
            var player_camera_z = 0.0f;
            var player_motion = default(motion);

            //var width = Native.window.Width;
            //var height = Native.window.Height;

            var clock = new Stopwatch();
            clock.Start();
            //var clock = new THREE.Clock();

            var scene = new THREE.Scene();
            scene.fog = new THREE.FogExp2(0x000000, 0.05f);

            scene.add(player_model_objects);

            var camera = new THREE.PerspectiveCamera(fov,
                Native.window.aspect,
                //width / height,
                1, 1000);

            scene.add(camera);

            #region light

            var light = new THREE.DirectionalLight(0xffffff, 1.5);

            light.position.set(1, 1, 1).normalize();

            light.castShadow = true;




            scene.add(light);




            #endregion

            var md2frames = new md2frames();

            var moveState_moving = false;
            var moveState_front = false;
            var moveState_Backwards = false;
            var moveState_left = false;
            var moveState_right = false;
            var moveState_speed = .1;
            var moveState_angle = 0;

            #region move
            Action move = delegate
            {
                //            if(player.model.motion !== 'run' && player.model.state === 'stand'){

                //    changeMotion('run');

                //}

                //if(player.model.motion !== 'crwalk' && player.model.state === 'crstand'){

                //    changeMotion('crwalk');

                //}

                var speed = moveState_speed;

                //if(player.model.state === 'crstand'){speed *= .5;}

                //if(player.model.state === 'freeze') {speed *= 0;}



                var direction = moveState_angle;

                if (moveState_front && !moveState_left && !moveState_Backwards && !moveState_right) { direction += 0; }
                if (moveState_front && moveState_left && !moveState_Backwards && !moveState_right) { direction += 45; }
                if (!moveState_front && moveState_left && !moveState_Backwards && !moveState_right) { direction += 90; }
                if (!moveState_front && moveState_left && moveState_Backwards && !moveState_right) { direction += 135; }
                if (!moveState_front && !moveState_left && moveState_Backwards && !moveState_right) { direction += 180; }
                if (!moveState_front && !moveState_left && moveState_Backwards && moveState_right) { direction += 225; }
                if (!moveState_front && !moveState_left && !moveState_Backwards && moveState_right) { direction += 270; }
                if (moveState_front && !moveState_left && !moveState_Backwards && moveState_right) { direction += 315; }



                player_model_objects.rotation.y = (float)(direction * Math.PI / 180);

                player_position_x -= (float)(Math.Sin(direction * Math.PI / 180) * speed);
                player_position_z -= (float)(Math.Cos(direction * Math.PI / 180) * speed);

            };
            #endregion

            #region camera rotation


            Action rotate = delegate { };

            var pointer_x = 0f;
            var pointer_y = 0f;
            var oldPointerX = 0f;
            var oldPointerY = 0f;

            container.onmousemove +=
                e =>
                {
                    if (Native.document.pointerLockElement == container)
                    {
                        oldPointerX = 0;
                        oldPointerY = 0;
                        pointer_x = e.movementX * 0.01f;
                        pointer_y = -e.movementY * 0.01f;
                        rotate();
                        return;
                    }

                    pointer_x = (e.CursorX / Native.window.Width) * 2 - 1;
                    pointer_y = -(e.CursorY / Native.window.Height) * 2 + 1;
                    rotate();
                };


            container.onmouseup +=
              e =>
              {
                  rotate = delegate { };

                  Native.document.exitPointerLock();
              };

            container.onmousedown +=
                e =>
                {

                    oldPointerX = pointer_x;
                    oldPointerY = pointer_y;

                    rotate = delegate
                    {
                        player_camera_x += (oldPointerX - pointer_x) * player_camera_speed;
                        player_camera_y += (oldPointerY - pointer_y) * player_camera_speed;

                        if (player_camera_y > 150)
                        {
                            player_camera_y = 150;
                        }

                        if (player_camera_y < -150)
                        {
                            player_camera_y = -150;
                        }

                        moveState_angle = Convert.ToInt32(player_camera_x / 2) % 360;

                        oldPointerX = pointer_x;
                        oldPointerY = pointer_y;

                    };

                    Console.WriteLine("requestPointerLock");
                    container.requestPointerLock();
                };

            #endregion

            var renderer = new THREE.WebGLRenderer();
            //renderer.setSize(width, height);
            renderer.setSize();
            renderer.shadowMapEnabled = true;
            renderer.shadowMapSoft = true;
            renderer.domElement.AttachTo(container);




            #region create field


            var planeGeometry = new THREE.PlaneGeometry(1000, 1000);
            var planeMaterial = new THREE.MeshLambertMaterial(
                new
                {
                    map = THREE.ImageUtils.loadTexture(new HTML.Images.FromAssets.bg().src),
                    color = 0xffffff
                }
            );

            planeMaterial.map.repeat.x = 300;
            planeMaterial.map.repeat.y = 300;
            planeMaterial.map.wrapS = THREE.RepeatWrapping;
            planeMaterial.map.wrapT = THREE.RepeatWrapping;
            var plane = new THREE.Mesh(planeGeometry, planeMaterial);
            plane.castShadow = false;
            plane.receiveShadow = true;


            {

                var parent = new THREE.Object3D();
                parent.add(plane);
                parent.rotation.x = -Math.PI / 2;

                scene.add(parent);
            }

            var random = new Random();
            var meshArray = new List<THREE.Mesh>();
            var geometry = new THREE.CubeGeometry(1, 1, 1);

            for (var i = 0; i < 100; i++)
            {

                var ii = new THREE.Mesh(geometry, new THREE.MeshLambertMaterial(
                    new
                    {
                        color = (Convert.ToInt32(0xffffff * random.NextDouble()))
                    }));
                ii.position.x = i % 2 * 5 - 2.5f;
                ii.position.y = .5f;
                ii.position.z = -1 * i * 4;
                ii.castShadow = true;
                ii.receiveShadow = true;


                meshArray.Add(ii);

                scene.add(ii);

            }
            #endregion







            //load converted md2 data

            var material = new THREE.MeshPhongMaterial(
                new
                {
                    map = THREE.ImageUtils.loadTexture(
                        new HTML.Images.FromAssets._1().src
                    ),
                    ambient = 0x999999,
                    color = 0xffffff,
                    specular = 0xffffff,
                    shininess = 25,
                    morphTargets = true
                }
            );




            var loader = new THREE.JSONLoader();

            loader.load(
                new global::WebGLYomotsuTPS.Design.droid().Content.src,
                            xgeometry =>
                            {
                                var md2meshBody = new THREE.MorphAnimMesh(xgeometry, material);

                                md2meshBody.rotation.y = (float)(-Math.PI / 2);
                                md2meshBody.scale.set(.02, .02, .02);
                                md2meshBody.position.y = .5f;
                                md2meshBody.castShadow = true;
                                md2meshBody.receiveShadow = false;

                                #region player_motion
                                Action<motion> player_changeMotion = motion =>
                                {
                                    Console.WriteLine(
                                        new { motion, md2frames.run, md2frames.stand });

                                    player_motion = motion;

                                    //    player.state = md2frames[motion][3].state;

                                    var animMin = motion.min;
                                    var animMax = motion.max;
                                    var animFps = motion.fps;

                                    md2meshBody.time = 0;
                                    md2meshBody.duration = (int)(
                                        1000 * ((animMax - animMin) / (double)animFps)
                                    );
                                    Native.document.title = new { animMin, animMax }.ToString();

                                    md2meshBody.setFrameRange(animMin, animMax);
                                };

                                player_changeMotion(md2frames.stand);
                                #endregion

                                player_model_objects.add(md2meshBody);

                                #region onkeydown
                                Native.document.onkeydown +=
                                    e =>
                                    {
                                        if (e.KeyCode == 67)
                                        {
                                            if (player_motion == md2frames.stand)
                                                player_changeMotion(md2frames.crstand);
                                            else if (player_motion == md2frames.crstand)
                                                player_changeMotion(md2frames.stand);

                                        }
                                        else if (e.KeyCode == 87)
                                        {
                                            moveState_front = true;
                                            moveState_Backwards = false;
                                        }
                                        else if (e.KeyCode == 83)
                                        {
                                            moveState_front = false;
                                            moveState_Backwards = true;
                                        }
                                        else if (e.KeyCode == 65)
                                        {
                                            moveState_left = true;
                                            moveState_right = false;
                                        }
                                        else if (e.KeyCode == 68)
                                        {
                                            moveState_left = false;
                                            moveState_right = true;
                                        }

                                        var isStand = player_motion == md2frames.stand;
                                        Console.WriteLine(
                                            new { e.KeyCode, moveState_front, moveState_Backwards, isStand }
                                            );

                                        if (moveState_front || moveState_Backwards || moveState_left || moveState_right)
                                            if (player_motion == md2frames.stand)
                                                player_changeMotion(md2frames.run);
                                            else if (player_motion == md2frames.crstand)
                                                player_changeMotion(md2frames.crwalk);
                                    };
                                #endregion

                                #region onkeyup
                                Native.document.onkeyup +=
                                    e =>
                                    {
                                        if (e.KeyCode == 87)
                                        {
                                            moveState_front = false;
                                        }
                                        else if (e.KeyCode == 83)
                                        {
                                            moveState_Backwards = false;
                                        }
                                        else if (e.KeyCode == 65)
                                        {
                                            moveState_left = false;
                                        }
                                        else if (e.KeyCode == 68)
                                        {
                                            moveState_right = false;
                                        }

                                    };
                                #endregion




                                #region loop


                                Native.window.onframe += delegate
                                {
                                    if (moveState_front || moveState_Backwards || moveState_left || moveState_right)
                                        move();
                                    else
                                        if (player_motion == md2frames.run)
                                        player_changeMotion(md2frames.stand);
                                    else if (player_motion == md2frames.crwalk)
                                        player_changeMotion(md2frames.crstand);



                                    player_model_objects.position.x = player_position_x;
                                    player_model_objects.position.y = player_position_y;
                                    player_model_objects.position.z = player_position_z;

                                    // camera rotate x
                                    camera.position.x = (float)(player_position_x + player_camera_distance * Math.Sin((player_camera_x) * Math.PI / 360.0));
                                    camera.position.z = (float)(player_position_z + player_camera_distance * Math.Cos((player_camera_x) * Math.PI / 360.0));

                                    //camera rotate y
                                    //camera.position.x = player.position.x + player.camera.distance * Math.cos( (player.camera.y) * Math.PI / 360 );
                                    camera.position.y = (float)(player_position_y + player_camera_distance * Math.Sin((player_camera_y) * Math.PI / 360.0));
                                    //camera.position.z = player.position.z + player.camera.distance * Math.cos( (player.camera.y) * Math.PI / 360 );

                                    camera.position.y += 1;
                                    //console.log(camera.position.z)

                                    var vec3 = new THREE.Vector3(player_position_x, player_position_y, player_position_z);

                                    camera.lookAt(vec3);



                                    #region model animation

                                    var delta = clock.ElapsedMilliseconds * 0.001;
                                    clock.Restart();

                                    var isEndFleame = (player_motion.max == md2meshBody.currentKeyframe);
                                    var isAction = player_motion.action;

                                    var x = (isAction && !isEndFleame);

                                    if (!isAction || x)
                                    {
                                        md2meshBody.updateAnimation(1000 * delta);
                                    }
                                    else if (player_motion.state == "freeze")
                                    {
                                        //dead...
                                    }
                                    else
                                    {
                                        player_changeMotion(player_motion);
                                    }
                                    #endregion

                                    renderer.render(scene, camera);


                                };

                                #endregion





                                #region AtResize
                                Action AtResize = delegate
                                {
                                    container.style.SetLocation(0, 0, Native.window.Width, Native.window.Height);


                                    renderer.setSize(Native.window.Width, Native.window.Height);

                                    camera.projectionMatrix.makePerspective(fov, Native.window.aspect, 1, 1100);

                                    //camera.aspect = Native.Window.Width / Native.Window.Height;
                                    //camera.updateProjectionMatrix();
                                };

                                Native.window.onresize +=
                                    delegate
                                {
                                    AtResize();
                                };

                                AtResize();
                                #endregion

                                #region requestFullscreen
                                Native.document.body.ondblclick +=
                                    delegate
                                {
                                    if (IsDisposed)
                                        return;

                                    // http://tutorialzine.com/2012/02/enhance-your-website-fullscreen-api/

                                    Native.document.body.requestFullscreen();

                                    //AtResize();
                                };
                                #endregion


                            }
            );





        }
        // http://youtu.be/Lo1IU8UAutE
        // 60hz 2160 4K!

        // The equirectangular projection was used in map creation since it was invented around 100 A.D. by Marinus of Tyre. 

        //        C:\Users\Arvo> "x:\util\android-sdk-windows\platform-tools\adb.exe" push "X:\vr\hzsky.png" "/sdcard/oculus/360photos/"
        //1533 KB/s(3865902 bytes in 2.461s)

        //C:\Users\Arvo> "x:\util\android-sdk-windows\platform-tools\adb.exe" push "X:\vr\hznosky.png" "/sdcard/oculus/360photos/"
        //1556 KB/s(2714294 bytes in 1.703s)

        //  "x:\util\android-sdk-windows\platform-tools\adb.exe" push "X:\vr\hz2048c3840x2160.png" "/sdcard/oculus/360photos/"



        // https://sites.google.com/a/jsc-solutions.net/work/knowledge-base/15-dualvr/20150809/chrome360hz

        // https://sites.google.com/a/jsc-solutions.net/work/knowledge-base/15-dualvr/20150809

        // the eye nor the display will be able to do any stereo
        // until tech is near matrix capability. 2019?

        // cubemap can be used for all long range scenes
        // http://www.imdb.com/title/tt0112111/?ref_=nv_sr_1


        // https://sites.google.com/a/jsc-solutions.net/work/knowledge-base/15-dualvr/20150808/cubemapcamera
        // subst a: s:\jsc.svn\examples\javascript\chrome\apps\WebGL\Chrome360HZ\Chrome360HZ\bin\Debug\staging\Chrome360HZ.Application\web
        // Z:\jsc.svn\examples\javascript\chrome\apps\WebGL\Chrome360HZ\Chrome360HZ\bin\Debug\staging\Chrome360HZ.Application\web

        // ColladaLoader: Empty or non-existing file (assets/Chrome360HZ/S6Edge.dae)

        /// <summary>
        /// This is a javascript application.
        /// </summary>
        /// <param name="page">HTML document rendered by the web server which can now be enhanced.</param>
        public Application(IApp page)
        {
            //FormStyler.AtFormCreated =
            //s =>
            //{
            //    s.Context.FormBorderStyle = System.Windows.Forms.FormBorderStyle.None;

            //    //var x = new ChromeTCPServerWithFrameNone.HTML.Pages.AppWindowDrag().AttachTo(s.Context.GetHTMLTarget());
            //    var x = new ChromeTCPServerWithFrameNone.HTML.Pages.AppWindowDragWithShadow().AttachTo(s.Context.GetHTMLTarget());



            //    s.Context.GetHTMLTarget().style.backgroundColor = "#efefef";
            //    //s.Context.GetHTMLTarget().style.backgroundColor = "#A26D41";

            //};

#if AsWEBSERVER
            #region += Launched chrome.app.window
            // X:\jsc.svn\examples\javascript\chrome\apps\ChromeTCPServerAppWindow\ChromeTCPServerAppWindow\Application.cs
            dynamic self = Native.self;
            dynamic self_chrome = self.chrome;
            object self_chrome_socket = self_chrome.socket;

            if (self_chrome_socket != null)
            {
                // if we run as a server. we can open up on android.

                //chrome.Notification.DefaultTitle = "Nexus7";
                //chrome.Notification.DefaultIconUrl = new x128().src;
                ChromeTCPServer.TheServerWithStyledForm.Invoke(
                     AppSource.Text
                //, AtFormCreated: FormStyler.AtFormCreated

                //AtFormConstructor:
                //    f =>
                //    {
                //        //arg[0] is typeof System.Int32
                //        //script: error JSC1000: No implementation found for this native method, please implement [static System.Drawing.Color.FromArgb(System.Int32)]

                //        // X:\jsc.svn\examples\javascript\forms\Test\TestFromArgb\TestFromArgb\ApplicationControl.cs

                //        f.BackColor = System.Drawing.Color.FromArgb(0xA26D41);
                //    }
                );
                return;
            }
            #endregion
#else

            #region += Launched chrome.app.window
            dynamic self = Native.self;
            dynamic self_chrome = self.chrome;
            object self_chrome_socket = self_chrome.socket;

            if (self_chrome_socket != null)
            {
                if (!(Native.window.opener == null && Native.window.parent == Native.window.self))
                {
                    Console.WriteLine("chrome.app.window.create, is that you?");

                    // pass thru
                }
                else
                {
                    // should jsc send a copresence udp message?
                    //chrome.runtime.UpdateAvailable += delegate
                    //{
                    //    new chrome.Notification(title: "UpdateAvailable");

                    //};

                    chrome.app.runtime.Launched += async delegate
                    {
                        // 0:12094ms chrome.app.window.create {{ href = chrome-extension://aemlnmcokphbneegoefdckonejmknohh/_generated_background_page.html }}
                        Console.WriteLine("chrome.app.window.create " + new { Native.document.location.href });

                        new chrome.Notification(title: "Chrome360HZ");

                        // https://developer.chrome.com/apps/app_window#type-CreateWindowOptions
                        var xappwindow = await chrome.app.window.create(
                               Native.document.location.pathname, options: new
                               {
                                   alwaysOnTop = true,
                                   visibleOnAllWorkspaces = true
                               }
                        );

                        //xappwindow.setAlwaysOnTop

                        xappwindow.show();

                        await xappwindow.contentWindow.async.onload;

                        Console.WriteLine("chrome.app.window loaded!");
                    };


                    return;
                }
            }
            #endregion


#endif

            //const int size = 128;
            //const int size = 256; // 6 faces, 12KB
            //const int size = 512; // 6 faces, ?

            // WebGL: drawArrays: texture bound to texture unit 0 is not renderable. It maybe non-power-of-2 and have incompatible texture filtering or is not 'texture complete'. Or the texture is Float or Half Float type with linear filtering while OES_float_linear or OES_half_float_linear extension is not enabled.

            //const int size = 720; // 6 faces, ?
            //const int size = 1024; // 6 faces, ?
            //const int size = 1024; // 6 faces, ?
            //const int cubefacesize = 2048; // 6 faces, ?
            const int cubefacesize = 512; // 6 faces, ?



            var uizoom = 0.05;

            var far = 0xfffff;

            Native.css.style.backgroundColor = "blue";
            Native.css.style.overflow = IStyle.OverflowEnum.hidden;

            Native.body.Clear();

            new IHTMLPre { "can we stream it into VR, shadertoy, youtube 360, youtube stereo yet?" }.AttachToDocument();


            var sw = Stopwatch.StartNew();

            var pause = new IHTMLInput { type = ScriptCoreLib.Shared.HTMLInputTypeEnum.checkbox, title = "pause" }.AttachToDocument();


            pause.onchange += delegate
            {

                if (pause.@checked)
                    sw.Stop();
                else
                    sw.Start();


            };

            var oo = new List<THREE.Object3D>();

            #region scene
            var window = Native.window;


            // what about physics and that portal rendering?

            // if we are running as a chrome web server, we may also be opened as android ndk webview app
            //var cameraPX = new THREE.PerspectiveCamera(fov: 90, aspect: window.aspect, near: 1, far: 2000);
            // once we update source
            // save the source
            // manually recompile 
            //cameraPX.position.z = 400;

            //// the camera should be close enough for the object to float off the FOV of PX
            //cameraPX.position.z = 200;

            // scene
            // can we make the 3D object orbit around us ?
            // and
            // stream it to vr?
            var scene = new THREE.Scene();

            var ambient = new THREE.AmbientLight(0x303030);
            scene.add(ambient);

            // should we fix jsc to do a more correct IDL?
            //var directionalLight = new THREE.DirectionalLight(0xffffff, 0.7);
            //directionalLight.position.set(0, 0, 1);
            //scene.add(directionalLight);

            #region light
            //var light = new THREE.DirectionalLight(0xffffff, 1.0);
            var light = new THREE.DirectionalLight(0xffffff, 2.5);
            //var light = new THREE.DirectionalLight(0xffffff, 2.5);
            //var light = new THREE.DirectionalLight(0xffffff, 1.5);
            //var lightOffset = new THREE.Vector3(0, 1000, 2500.0);
            var lightOffset = new THREE.Vector3(
                2000,
                700,

                // lower makes longer shadows 
                700.0
                );
            light.position.copy(lightOffset);
            light.castShadow = true;

            var xlight = light as dynamic;
            xlight.shadowMapWidth = 4096;
            xlight.shadowMapHeight = 2048;

            xlight.shadowDarkness = 0.1;
            //xlight.shadowDarkness = 0.5;

            xlight.shadowCameraNear = 10;
            xlight.shadowCameraFar = 10000;
            xlight.shadowBias = 0.00001;
            xlight.shadowCameraRight = 4000;
            xlight.shadowCameraLeft = -4000;
            xlight.shadowCameraTop = 4000;
            xlight.shadowCameraBottom = -4000;

            xlight.shadowCameraVisible = true;

            scene.add(light);
            #endregion




            // whats WebGLRenderTargetCube do?

            // WebGLRenderer preserveDrawingBuffer 



            var renderer0 = new THREE.WebGLRenderer(

                new
                {
                    antialias = true,
                    alpha = true,
                    preserveDrawingBuffer = true
                }
            );

            // https://github.com/mrdoob/three.js/issues/3836

            // the construct. white bg
            renderer0.setClearColor(0xfffff, 1);

            //renderer.setSize(window.Width, window.Height);
            renderer0.setSize(cubefacesize, cubefacesize);

            //renderer0.domElement.AttachToDocument();
            //rendererPX.domElement.style.SetLocation(0, 0);
            //renderer0.domElement.style.SetLocation(4, 4);


            // top

            // http://stackoverflow.com/questions/27612524/can-multiple-webglrenderers-render-the-same-scene


            // need a place to show the cubemap face to GUI 
            // how does the stereo OTOY do it?
            // https://www.opengl.org/wiki/Sampler_(GLSL)

            // http://www.richardssoftware.net/Home/Post/25

            // [+X, –X, +Y, –Y, +Z, –Z] fa



            // move up
            //camera.position.set(-1200, 800, 1200);
            //var cameraoffset = new THREE.Vector3(0, 15, 0);
            var cameraoffset = new THREE.Vector3(-1200, 800, 1200);

            #region y
            // need to rotate90?
            var cameraNY = new THREE.PerspectiveCamera(fov: 90, aspect: 1.0, near: 1, far: far);
            cameraNY.lookAt(new THREE.Vector3(0, -1, 0));
            cameraNY.position.add(cameraoffset);

            //cameraNY.lookAt(new THREE.Vector3(0, 1, 0));
            var canvasNY = new CanvasRenderingContext2D(cubefacesize, cubefacesize);
            canvasNY.canvas.style.SetLocation(8 + (int)(uizoom * cubefacesize + 8) * 1, 8 + (int)(uizoom * cubefacesize + 8) * 2);
            canvasNY.canvas.title = "NY";
            canvasNY.canvas.AttachToDocument();
            canvasNY.canvas.style.transformOrigin = "0 0";
            canvasNY.canvas.style.transform = "scale(" + uizoom + ")";

            var cameraPY = new THREE.PerspectiveCamera(fov: 90, aspect: 1.0, near: 1, far: far);
            cameraPY.lookAt(new THREE.Vector3(0, 1, 0));
            cameraPY.position.add(cameraoffset);
            //cameraPY.lookAt(new THREE.Vector3(0, -1, 0));
            var canvasPY = new CanvasRenderingContext2D(cubefacesize, cubefacesize);
            canvasPY.canvas.style.SetLocation(8 + (int)(uizoom * cubefacesize + 8) * 1, 8 + (int)(uizoom * cubefacesize + 8) * 0);
            canvasPY.canvas.title = "PY";
            canvasPY.canvas.AttachToDocument();
            canvasPY.canvas.style.transformOrigin = "0 0";
            canvasPY.canvas.style.transform = "scale(" + uizoom + ")";
            #endregion

            // transpose xz?

            #region x
            var cameraNX = new THREE.PerspectiveCamera(fov: 90, aspect: 1.0, near: 1, far: far);
            cameraNX.lookAt(new THREE.Vector3(0, 0, 1));
            cameraNX.position.add(cameraoffset);
            //cameraNX.lookAt(new THREE.Vector3(0, 0, -1));
            //cameraNX.lookAt(new THREE.Vector3(-1, 0, 0));
            //cameraNX.lookAt(new THREE.Vector3(1, 0, 0));
            var canvasNX = new CanvasRenderingContext2D(cubefacesize, cubefacesize);
            canvasNX.canvas.style.SetLocation(8 + (int)(uizoom * cubefacesize + 8) * 2, 8 + (int)(uizoom * cubefacesize + 8) * 1);
            canvasNX.canvas.title = "NX";
            canvasNX.canvas.AttachToDocument();
            canvasNX.canvas.style.transformOrigin = "0 0";
            canvasNX.canvas.style.transform = "scale(" + uizoom + ")";

            var cameraPX = new THREE.PerspectiveCamera(fov: 90, aspect: 1.0, near: 1, far: far);
            cameraPX.lookAt(new THREE.Vector3(0, 0, -1));
            cameraPX.position.add(cameraoffset);
            //cameraPX.lookAt(new THREE.Vector3(0, 0, 1));
            //cameraPX.lookAt(new THREE.Vector3(1, 0, 0));
            //cameraPX.lookAt(new THREE.Vector3(-1, 0, 0));
            var canvasPX = new CanvasRenderingContext2D(cubefacesize, cubefacesize);
            canvasPX.canvas.style.SetLocation(8 + (int)(uizoom * cubefacesize + 8) * 0, 8 + (int)(uizoom * cubefacesize + 8) * 1);
            canvasPX.canvas.title = "PX";
            canvasPX.canvas.AttachToDocument();
            canvasPX.canvas.style.transformOrigin = "0 0";
            canvasPX.canvas.style.transform = "scale(" + uizoom + ")";
            #endregion



            #region z
            var cameraNZ = new THREE.PerspectiveCamera(fov: 90, aspect: 1.0, near: 1, far: far);
            //cameraNZ.lookAt(new THREE.Vector3(0, 0, -1));
            cameraNZ.lookAt(new THREE.Vector3(1, 0, 0));
            cameraNZ.position.add(cameraoffset);
            //cameraNX.lookAt(new THREE.Vector3(-1, 0, 0));
            //cameraNZ.lookAt(new THREE.Vector3(0, 0, 1));
            var canvasNZ = new CanvasRenderingContext2D(cubefacesize, cubefacesize);
            canvasNZ.canvas.style.SetLocation(8 + (int)(uizoom * cubefacesize + 8) * 3, 8 + (int)(uizoom * cubefacesize + 8) * 1);
            canvasNZ.canvas.title = "NZ";
            canvasNZ.canvas.AttachToDocument();
            canvasNZ.canvas.style.transformOrigin = "0 0";
            canvasNZ.canvas.style.transform = "scale(" + uizoom + ")";

            var cameraPZ = new THREE.PerspectiveCamera(fov: 90, aspect: 1.0, near: 1, far: far);
            //cameraPZ.lookAt(new THREE.Vector3(1, 0, 0));
            cameraPZ.lookAt(new THREE.Vector3(-1, 0, 0));
            cameraPZ.position.add(cameraoffset);
            //cameraPZ.lookAt(new THREE.Vector3(0, 0, 1));
            //cameraPZ.lookAt(new THREE.Vector3(0, 0, -1));
            var canvasPZ = new CanvasRenderingContext2D(cubefacesize, cubefacesize);
            canvasPZ.canvas.style.SetLocation(8 + (int)(uizoom * cubefacesize + 8) * 1, 8 + (int)(uizoom * cubefacesize + 8) * 1);
            canvasPZ.canvas.title = "PZ";
            canvasPZ.canvas.AttachToDocument();
            canvasPZ.canvas.style.transformOrigin = "0 0";
            canvasPZ.canvas.style.transform = "scale(" + uizoom + ")";
            #endregion




            // c++ alias locals would be nice..
            var canvas0 = (IHTMLCanvas)renderer0.domElement;


            var old = new
            {



                CursorX = 0,
                CursorY = 0
            };


            var st = new Stopwatch();
            st.Start();

            //canvas0.css.active.style.cursor = IStyle.CursorEnum.move;

            #region onmousedown
            Native.body.onmousedown +=
                async e =>
                {
                    if (e.Element.nodeName.ToLower() != "canvas")
                        return;

                    // movementX no longer works
                    old = new
                    {


                        e.CursorX,
                        e.CursorY
                    };


                    //e.CaptureMouse();
                    var release = e.Element.CaptureMouse();
                    await e.Element.async.onmouseup;

                    release();


                };
            #endregion



            // X:\jsc.svn\examples\javascript\Test\TestMouseMovement\TestMouseMovement\Application.cs
            #region onmousemove
            Native.body.onmousemove +=
                e =>
                {
                    if (e.Element.nodeName.ToLower() != "canvas")
                    {
                        Native.body.style.cursor = IStyle.CursorEnum.@default;
                        return;
                    }

                    e.preventDefault();
                    e.stopPropagation();


                    Native.body.style.cursor = IStyle.CursorEnum.move;

                    var pointerLock = canvas0 == Native.document.pointerLockElement;


                    //Console.WriteLine(new { e.MouseButton, pointerLock, e.movementX });

                    if (e.MouseButton == IEvent.MouseButtonEnum.Left)
                    {

                        oo.WithEach(
                            x =>
                            {
                                x.rotation.y += 0.006 * (e.CursorX - old.CursorX);
                                x.rotation.x += 0.006 * (e.CursorY - old.CursorY);
                            }
                        );

                        old = new
                        {


                            e.CursorX,
                            e.CursorY
                        };



                    }

                };
            #endregion

            // THREE.WebGLProgram: gl.getProgramInfoLog() C:\fakepath(78,3-98): warning X3557: loop only executes for 1 iteration(s), forcing loop to unroll
            // THREE.WebGLProgram: gl.getProgramInfoLog() (79,3-98): warning X3557: loop only executes for 1 iteration(s), forcing loop to unroll

            // http://www.roadtovr.com/youtube-confirms-stereo-3d-360-video-support-coming-soon/
            // https://www.youtube.com/watch?v=D-Wl9jAB45Q



            #region spherical
            var gl = new WebGLRenderingContext(alpha: true, preserveDrawingBuffer: true);
            var c = gl.canvas.AttachToDocument();

            //  3840x2160

            //c.style.SetSize(3840, 2160);

            // https://sites.google.com/a/jsc-solutions.net/work/knowledge-base/15-dualvr/20150722/360-youtube


            c.width = 3840;
            c.height = 2160;


            //c.width = 3840 * 2;
            //c.height = 2160 * 2;


            //c.width = 3840;
            //c.height = 2160;
            // 1,777777777777778

            // https://www.youtube.com/watch?v=fTfJwzRsE-w
            //c.width = 7580;
            //c.height = 3840;
            //1,973958333333333

            //7580
            //    3840

            // wont work
            //c.width = 8192;
            //c.height = 4096;


            // this has the wrong aspect?
            //c.width = 6466;
            //c.height = 3232;

            new IHTMLPre { new { c.width, c.height } }.AttachToDocument();

            //6466x3232

            //var suizoom = 720f / c.height;
            //var suizoom = 360f / c.height;
            var suizoom = 480f / c.width;

            c.style.transformOrigin = "0 0";
            c.style.transform = "scale(" + suizoom + ")";
            c.style.backgroundColor = "yellow";
            c.style.position = IStyle.PositionEnum.absolute;

            c.style.SetLocation(8 + (int)(uizoom * cubefacesize + 8) * 0, 8 + (int)(uizoom * cubefacesize + 8) * 3);

            var pass = new CubeToEquirectangular.Library.ShaderToy.EffectPass(
                       null,
                       gl,
                       precission: CubeToEquirectangular.Library.ShaderToy.DetermineShaderPrecission(gl),
                       supportDerivatives: gl.getExtension("OES_standard_derivatives") != null,
                       callback: null,
                       obj: null,
                       forceMuted: false,
                       forcePaused: false,
                //quadVBO: Library.ShaderToy.createQuadVBO(gl, right: 0, top: 0),
                       outputGainNode: null
                   );

            // how shall we upload our textures?
            // can we reference GLSL.samplerCube yet?
            //pass.mInputs[0] = new samplerCube { };
            pass.mInputs[0] = new CubeToEquirectangular.Library.ShaderToy.samplerCube { };

            pass.MakeHeader_Image();
            var vs = new Shaders.ProgramFragmentShader();
            pass.NewShader_Image(vs);

            #endregion




            //var frame0 = new HTML.Images.FromAssets.tiles_regrid().AttachToDocument();
            var frame0 = new HTML.Images.FromAssets.anvil___spherical_hdri_panorama_skybox_by_macsix_d6vv4hs().AttachToDocument();
            //var xor = new HTML.Images.FromAssets.Orion360_test_image_8192x4096().AttachToDocument();
            //var xor = new HTML.Images.FromAssets._2_no_clouds_4k().AttachToDocument();
            //var frame0 = new HTML.Images.FromAssets._2294472375_24a3b8ef46_o().AttachToDocument();


            // 270px
            //xor.style.height = "";
            frame0.style.height = "270px";
            frame0.style.width = "480px";
            frame0.style.SetLocation(
                8 + (int)(uizoom * cubefacesize + 8) * 0 + 480 + 16, 8 + (int)(uizoom * cubefacesize + 8) * 3);


            var mesh = new THREE.Mesh(new THREE.SphereGeometry(far / 2, 50, 50),
           new THREE.MeshBasicMaterial(new
           {
               map = THREE.ImageUtils.loadTexture(
                   //new HTML.Images.FromAssets._2294472375_24a3b8ef46_o().src
                   //new HTML.Images.FromAssets._4008650304_7f837ccbb7_b().src
                  frame0.src
                   //new WebGLEquirectangularPanorama.HTML.Images.FromAssets.PANO_20130616_222058().src
                   //new WebGLEquirectangularPanorama.HTML.Images.FromAssets.PANO_20121225_210448().src

                   )
           }));
            mesh.scale.x = -1;

            #region fixup rotation

            //mesh.rotateOnAxis(new THREE.Vector3(1, 0, 0), Math.PI / 2);
            //mesh.rotateOnAxis(new THREE.Vector3(1, 0, 0), -Math.PI / 2);
            mesh.rotateOnAxis(new THREE.Vector3(0, 1, 0), -Math.PI / 2);
            #endregion


            scene.add(mesh);


            //new IHTMLButton { }

            var dir = default(DirectoryEntry);

            new IHTMLButton { "openDirectory" }.AttachToDocument().onclick += async delegate
            {
                dir = (DirectoryEntry)await chrome.fileSystem.chooseEntry(new { type = "openDirectory" });
            };

            frame0.onclick += delegate
            {
                // http://paulbourke.net/papers/vsmm2006/vsmm2006.pdf
                //            A method of creating synthetic stereoscopic panoramic images that can be implemented
                //in most rendering packages has been presented. If single panoramic pairs can be created
                //then stereoscopic panoramic movies are equally possible giving rise to the prospect of
                //movies where the viewer can interact with, at least with regard to what they choose to look
                //at.These images can be projected so as to engage the two features of the human visual
                //system that assist is giving us a sense of immersion, the feeling of “being there”. That is,
                //imagery that contains parallax information as captured from two horizontally separated eye
                //positions (stereopsis)and imagery that fills our peripheral vision.The details that define
                //how the two panoramic images should be created in rendering packages are provided, in
                //particular, how to precisely configure the virtual cameras and control the distance to zero
                //parallax.

                // grab a frame


                var f0 = new IHTMLImage { src = gl.canvas.toDataURL() };

                //var f0 = (IHTMLImage)gl.canvas;
                //var f0 = (IHTMLImage)gl.canvas;
                //var base64 = gl.canvas.toDataURL();


                //frame0.src = base64;
                frame0.src = f0.src;

                // 7MB!

                if (dir == null)
                    return;

                //                // ---------------------------
                //IrfanView
                //---------------------------
                //Warning !
                //The file: "X:\vr\tape1\0001.jpg" is a PNG file with incorrect extension !
                //Rename ?
                //---------------------------
                //Yes   No   
                //---------------------------

                // haha this will render the thumbnail.
                //dir.WriteAllBytes("0000.png", frame0);

                dir.WriteAllBytes("0000.png", f0);
                // 3.7MB
                // 3840x2160

            };



            // "Z:\jsc.svn\examples\javascript\WebGL\WebGLColladaExperiment\WebGLColladaExperiment\WebGLColladaExperiment.csproj"

            #region WebGLRah66Comanche
            // why isnt it being found?
            // "Z:\jsc.svn\examples\javascript\WebGL\collada\WebGLRah66Comanche\WebGLRah66Comanche\WebGLRah66Comanche.csproj"
            new global::WebGLRah66Comanche.Comanche(
            ).Source.Task.ContinueWithResult(
                dae =>
                {

                    //dae.position.y = -40;
                    //dae.position.z = 280;
                    scene.add(dae);
                    //oo.Add(dae);

                    // wont do it
                    //dae.castShadow = true;

                    dae.children[0].children[0].children.WithEach(x => x.castShadow = true);


                    // the rotors?
                    dae.children[0].children[0].children.Last().children.WithEach(x => x.castShadow = true);


                    dae.scale.set(0.5, 0.5, 0.5);
                    dae.position.x = -900;
                    dae.position.z = +900;

                    // raise it up
                    dae.position.y = 400;

                    //var sw = Stopwatch.StartNew();

                    //Native.window.onframe += delegate
                    //{
                    //    //dae.children[0].children[0].children.Last().al
                    //    //dae.children[0].children[0].children.Last().rotation.z = sw.ElapsedMilliseconds * 0.01;
                    //    //dae.children[0].children[0].children.Last().rotation.x = sw.ElapsedMilliseconds * 0.01;
                    //    dae.children[0].children[0].children.Last().rotation.y = sw.ElapsedMilliseconds * 0.01;
                    //};
                }
            );
            #endregion



            #region tree
            // "Z:\jsc.svn\examples\javascript\WebGL\WebGLGodRay\WebGLGodRay\WebGLGodRay.csproj"

            var materialScene = new THREE.MeshBasicMaterial(new { color = 0x000000, shading = THREE.FlatShading });
            var tloader = new THREE.JSONLoader();

            // http://stackoverflow.com/questions/16539736/do-not-use-system-runtime-compilerservices-dynamicattribute-use-the-dynamic
            // https://msdn.microsoft.com/en-us/library/system.runtime.compilerservices.dynamicattribute%28v=vs.110%29.aspx
            //System.Runtime.CompilerServices.DynamicAttribute

            tloader.load(

                new WebGLGodRay.Models.tree().Content.src,

                new Action<THREE.Geometry>(
                xgeometry =>
                {

                    var treeMesh = new THREE.Mesh(xgeometry, materialScene);
                    treeMesh.position.set(0, -150, -150);
                    treeMesh.position.x = -900;
                    treeMesh.position.z = -900;

                    treeMesh.position.y = 25;

                    var tsc = 400;
                    treeMesh.scale.set(tsc, tsc, tsc);

                    treeMesh.matrixAutoUpdate = false;
                    treeMesh.updateMatrix();


                    treeMesh.AttachTo(scene);

                }
                )
                );
            #endregion

            #region create field

            // THREE.PlaneGeometry: Consider using THREE.PlaneBufferGeometry for lower memory footprint.

            // could we get some film grain?
            var planeGeometry = new THREE.CubeGeometry(512, 512, 1);
            var plane = new THREE.Mesh(planeGeometry,
                    new THREE.MeshPhongMaterial(new { ambient = 0x101010, color = 0xA26D41, specular = 0xA26D41, shininess = 1 })

                );
            //plane.castShadow = false;
            plane.receiveShadow = true;


            {

                var parent = new THREE.Object3D();
                parent.add(plane);
                parent.rotation.x = -Math.PI / 2;
                parent.scale.set(10, 10, 10);

                scene.add(parent);
            }

            var random = new Random();
            var meshArray = new List<THREE.Mesh>();
            var geometry = new THREE.CubeGeometry(1, 1, 1);
            //var sw = Stopwatch.StartNew();

            for (var i = 3; i < 9; i++)
            {

                //THREE.MeshPhongMaterial
                var ii = new THREE.Mesh(geometry,


                    new THREE.MeshPhongMaterial(new { ambient = 0x000000, color = 0xA06040, specular = 0xA26D41, shininess = 1 })

                    //new THREE.MeshLambertMaterial(
                    //new
                    //{
                    //    color = (Convert.ToInt32(0xffffff * random.NextDouble())),
                    //    specular = 0xffaaaa,
                    //    ambient= 0x050505, 
                    //})

                    );
                ii.position.x = i % 7 * 200 - 2.5f;

                // raise it up
                ii.position.y = .5f * 100;
                ii.position.z = -1 * i * 100;
                ii.castShadow = true;
                ii.receiveShadow = true;
                //ii.scale.set(100, 100, 100 * i);
                ii.scale.set(100, 100 * i, 100);


                meshArray.Add(ii);

                scene.add(ii);

                if (i % 2 == 0)
                {
#if FWebGLHZBlendCharacter
                    #region SpeedBlendCharacter
					var _i = i;
					{ WebGLHZBlendCharacter.HTML.Pages.TexturesImages ref0; }

					var blendMesh = new THREE.SpeedBlendCharacter();
					blendMesh.load(
						new WebGLHZBlendCharacter.Models.marine_anims().Content.src,
						new Action(
							delegate
							{
								// buildScene
								//blendMesh.rotation.y = Math.PI * -135 / 180;
								blendMesh.castShadow = true;
								// we cannot scale down we want our shadows
								//blendMesh.scale.set(0.1, 0.1, 0.1);

								blendMesh.position.x = (_i + 2) % 7 * 200 - 2.5f;

								// raise it up
								//blendMesh.position.y = .5f * 100;
								blendMesh.position.z = -1 * _i * 100;


								var xtrue = true;
								// run
								blendMesh.setSpeed(1.0);

								// will in turn call THREE.AnimationHandler.play( this );
								//blendMesh.run.play();
								// this wont help. bokah does not see the animation it seems.
								//blendMesh.run.update(1);

								blendMesh.showSkeleton(!xtrue);

								scene.add(blendMesh);


								Native.window.onframe +=
								 delegate
								 {

									 blendMesh.rotation.y = Math.PI * 0.0002 * sw.ElapsedMilliseconds;



									 ii.rotation.y = Math.PI * 0.0002 * sw.ElapsedMilliseconds;

								 };

							}
						)
					);
                    #endregion
#endif
                }

            }
            #endregion


            #region HZCannon
            // "Z:\jsc.svn\examples\javascript\WebGL\HeatZeekerRTSOrto\HeatZeekerRTSOrto\HeatZeekerRTSOrto.csproj"
            new HeatZeekerRTSOrto.HZCannon().Source.Task.ContinueWithResult(
                async cube =>
                {
                    // https://github.com/mrdoob/three.js/issues/1285
                    //cube.children.WithEach(c => c.castShadow = true);

                    //cube.traverse(
                    //    new Action<THREE.Object3D>(
                    //        child =>
                    //        {
                    //            // does it work? do we need it?
                    //            //if (child is THREE.Mesh)

                    //            child.castShadow = true;
                    //            //child.receiveShadow = true;

                    //        }
                    //    )
                    //);

                    // um can edit and continue insert code going back in time?
                    cube.scale.x = 10.0;
                    cube.scale.y = 10.0;
                    cube.scale.z = 10.0;



                    //cube.castShadow = true;
                    //dae.receiveShadow = true;

                    //cube.position.x = -100;

                    ////cube.position.y = (cube.scale.y * 50) / 2;
                    //cube.position.z = Math.Floor((random() * 1000 - 500) / 50) * 50 + 25;



                    // if i want to rotate, how do I do it?
                    //cube.rotation.z = random() + Math.PI;
                    //cube.rotation.x = random() + Math.PI;
                    var sw2 = Stopwatch.StartNew();



                    scene.add(cube);
                    //interactiveObjects.Add(cube);

                    // offset is wrong
                    //while (true)
                    //{
                    //    await Native.window.async.onframe;

                    //    cube.rotation.y = Math.PI * 0.0002 * sw2.ElapsedMilliseconds;

                    //}
                }
            );
            #endregion


            #region HZCannon
            new HeatZeekerRTSOrto.HZCannon().Source.Task.ContinueWithResult(
                async cube =>
                {
                    // https://github.com/mrdoob/three.js/issues/1285
                    //cube.children.WithEach(c => c.castShadow = true);

                    //cube.traverse(
                    //    new Action<THREE.Object3D>(
                    //        child =>
                    //        {
                    //            // does it work? do we need it?
                    //            //if (child is THREE.Mesh)

                    //            child.castShadow = true;
                    //            //child.receiveShadow = true;

                    //        }
                    //    )
                    //);

                    // um can edit and continue insert code going back in time?
                    cube.scale.x = 10.0;
                    cube.scale.y = 10.0;
                    cube.scale.z = 10.0;



                    //cube.castShadow = true;
                    //dae.receiveShadow = true;


                    // jsc shat about out of band code patching?
                    cube.position.z = 600;
                    cube.position.x = -900;
                    //cube.position.y = -400;

                    //cube.position.x = -100;
                    //cube.position.y = -400;

                    ////cube.position.y = (cube.scale.y * 50) / 2;
                    //cube.position.z = Math.Floor((random() * 1000 - 500) / 50) * 50 + 25;



                    // if i want to rotate, how do I do it?
                    //cube.rotation.z = random() + Math.PI;
                    //cube.rotation.x = random() + Math.PI;
                    var sw2 = Stopwatch.StartNew();



                    scene.add(cube);
                    //interactiveObjects.Add(cube);

                    // offset is wrong
                    //while (true)
                    //{
                    //    await Native.window.async.onframe;

                    //    cube.rotation.y = Math.PI * 0.0002 * sw2.ElapsedMilliseconds;

                    //}
                }
            );
            #endregion


            #region HZBunker
            new HeatZeekerRTSOrto.HZBunker().Source.Task.ContinueWithResult(
                     cube =>
                     {
                         // https://github.com/mrdoob/three.js/issues/1285
                         //cube.children.WithEach(c => c.castShadow = true);
                         cube.castShadow = true;

                         //cube.traverse(
                         //    new Action<THREE.Object3D>(
                         //        child =>
                         //        {
                         //            // does it work? do we need it?
                         //            //if (child is THREE.Mesh)
                         //            child.castShadow = true;
                         //            //child.receiveShadow = true;

                         //        }
                         //    )
                         //);

                         // um can edit and continue insert code going back in time?
                         cube.scale.x = 10.0;
                         cube.scale.y = 10.0;
                         cube.scale.z = 10.0;

                         //cube.castShadow = true;
                         //dae.receiveShadow = true;

                         cube.position.x = -1000;
                         //cube.position.y = (cube.scale.y * 50) / 2;
                         cube.position.z = 0;

                         scene.add(cube);
                     }
                 );
            #endregion


            new Models.ColladaS6Edge().Source.Task.ContinueWithResult(
                   dae =>
                   {
                       // 90deg
                       dae.rotation.x = -Math.Cos(Math.PI);

                       //dae.scale.x = 30;
                       //dae.scale.y = 30;
                       //dae.scale.z = 30;
                       dae.position.z = -(65 - 200);





                       var scale = 0.9;

                       // jsc, do we have ILObserver available yet?
                       dae.scale.x = scale;
                       dae.scale.y = scale;
                       dae.scale.z = scale;


                       #region onmousewheel
                       Native.body.onmousewheel +=
                           e =>
                           {
                               e.preventDefault();

                               //camera.position.z = 1.5;

                               // min max. shall adjust speed also!
                               // max 4.0
                               // min 0.6
                               dae.position.z -= 10.0 * e.WheelDirection;

                               //camera.position.z = 400;
                               //dae.position.z = dae.position.z.Max(-200).Min(200);

                               //Native.document.title = new { z }.ToString();

                           };
                       #endregion


                       //dae.position.y = -80;

                       scene.add(dae);
                       oo.Add(dae);




                       // view-source:http://threejs.org/examples/webgl_multiple_canvases_circle.html
                       // https://threejsdoc.appspot.com/doc/three.js/src.source/extras/cameras/CubeCamera.js.html
                       Native.window.onframe +=
                           e =>
                           {
                               //if (pause) return;
                               //if (pause.@checked)
                               //    return;


                               // can we float out of frame?
                               // haha. a bit too flickery.
                               //dae.position.x = Math.Sin(e.delay.ElapsedMilliseconds * 0.01) * 50.0;
                               //dae.position.x = Math.Sin(e.delay.ElapsedMilliseconds * 0.001) * 190.0;
                               dae.position.x = Math.Sin(sw.ElapsedMilliseconds * 0.0001) * 190.0;
                               dae.position.y = Math.Cos(sw.ElapsedMilliseconds * 0.0001) * 90.0;
                               // manual rebuild?
                               // red compiler notifies laptop chrome of pending update
                               // app reloads


                               renderer0.clear();
                               //rendererPY.clear();

                               //cameraPX.aspect = canvasPX.aspect;
                               //cameraPX.updateProjectionMatrix();

                               // um what does this do?
                               //cameraPX.position.z += (z - cameraPX.position.z) * e.delay.ElapsedMilliseconds / 200.0;
                               // mousewheel allos the camera to move closer
                               // once we see the frame in vr, can we udp sync vr tracking back to laptop?


                               //this.targetPX.x += 1;
                               //this.targetNX.x -= 1;

                               //this.targetPY.y += 1;
                               //this.targetNY.y -= 1;

                               //this.targetPZ.z += 1;
                               //this.targetNZ.z -= 1;

                               // how does the 360 or shadertoy want our cubemaps?


                               // and then rotate right?

                               // how can we render cubemap?


                               #region x
                               // upside down?
                               renderer0.render(scene, cameraPX);
                               canvasPX.drawImage((IHTMLCanvas)renderer0.domElement, 0, 0, cubefacesize, cubefacesize);

                               renderer0.render(scene, cameraNX);
                               canvasNX.drawImage((IHTMLCanvas)renderer0.domElement, 0, 0, cubefacesize, cubefacesize);
                               #endregion

                               #region z
                               renderer0.render(scene, cameraPZ);
                               canvasPZ.drawImage((IHTMLCanvas)renderer0.domElement, 0, 0, cubefacesize, cubefacesize);

                               renderer0.render(scene, cameraNZ);
                               canvasNZ.drawImage((IHTMLCanvas)renderer0.domElement, 0, 0, cubefacesize, cubefacesize);
                               #endregion



                               #region y
                               renderer0.render(scene, cameraPY);

                               //canvasPY.save();
                               //canvasPY.translate(0, size);
                               //canvasPY.rotate((float)(-Math.PI / 2));
                               canvasPY.drawImage((IHTMLCanvas)renderer0.domElement, 0, 0, cubefacesize, cubefacesize);
                               //canvasPY.restore();


                               renderer0.render(scene, cameraNY);
                               //canvasNY.save();
                               //canvasNY.translate(size, 0);
                               //canvasNY.rotate((float)(Math.PI / 2));
                               canvasNY.drawImage((IHTMLCanvas)renderer0.domElement, 0, 0, cubefacesize, cubefacesize);
                               //canvasNY.restore();
                               // ?
                               #endregion


                               //renderer0.render(scene, cameraPX);


                               //rendererPY.render(scene, cameraPY);

                               // at this point we should be able to render the sphere texture

                               //public const uint TEXTURE_CUBE_MAP_POSITIVE_X = 34069;
                               //public const uint TEXTURE_CUBE_MAP_NEGATIVE_X = 34070;
                               //public const uint TEXTURE_CUBE_MAP_POSITIVE_Y = 34071;
                               //public const uint TEXTURE_CUBE_MAP_NEGATIVE_Y = 34072;
                               //public const uint TEXTURE_CUBE_MAP_POSITIVE_Z = 34073;
                               //public const uint TEXTURE_CUBE_MAP_NEGATIVE_Z = 34074;


                               //var cube0 = new IHTMLImage[] {
                               //        new CSS3DPanoramaByHumus.HTML.Images.FromAssets.humus_px(),
                               //        new CSS3DPanoramaByHumus.HTML.Images.FromAssets.humus_nx(),

                               //        new CSS3DPanoramaByHumus.HTML.Images.FromAssets.humus_py(),
                               //        new CSS3DPanoramaByHumus.HTML.Images.FromAssets.humus_ny(),


                               //        new CSS3DPanoramaByHumus.HTML.Images.FromAssets.humus_pz(),
                               //        new CSS3DPanoramaByHumus.HTML.Images.FromAssets.humus_nz()
                               //};

                               new[] {
                                   canvasPX, canvasNX,
                                   canvasPY, canvasNY,
                                   canvasPZ, canvasNZ
                               }.WithEachIndex(
                                   (img, index) =>
                                   {
                                       gl.bindTexture(gl.TEXTURE_CUBE_MAP, pass.tex);

                                       //gl.pixelStorei(gl.UNPACK_FLIP_X_WEBGL, false);
                                       gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, false);

                                       // http://stackoverflow.com/questions/15364517/pixelstoreigl-unpack-flip-y-webgl-true

                                       // https://msdn.microsoft.com/en-us/library/dn302429(v=vs.85).aspx
                                       //gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, 0);
                                       //gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, 1);

                                       gl.texImage2D(gl.TEXTURE_CUBE_MAP_POSITIVE_X + (uint)index, 0, gl.RGBA, gl.RGBA, gl.UNSIGNED_BYTE, img.canvas);

                                   }
                                );


                               pass.Paint_Image(
                                     0,

                                     0,
                                     0,
                                     0,
                                     0
                                   //,

                                // gl_FragCoord
                                   // cannot be scaled, and can be referenced directly.
                                   // need another way to scale
                                   //zoom: 0.3f
                                );

                               //paintsw.Stop();


                               // what does it do?
                               gl.flush();

                           };


                   }
               );


            #endregion



            Console.WriteLine("do you see it?");
        }
Exemple #4
0
        /// <summary>
        /// This is a javascript application.
        /// </summary>
        /// <param name="page">HTML document rendered by the web server which can now be enhanced.</param>
        public Application(IApp page)
        {
            // http://threejs.org/examples/#webgl_postprocessing_godrays
            // view-source:file:///X:/opensource/github/three.js/examples/webgl_postprocessing_godrays.html

            Native.body.style.margin   = "0px";
            Native.body.style.overflow = IStyle.OverflowEnum.hidden;
            Native.body.Clear();


            var sunPosition         = new THREE.Vector3(0, 1000, -1000);
            var screenSpacePosition = new THREE.Vector3();

            var mouseX = 0;
            var mouseY = 0;

            var windowHalfX = Native.window.Width / 2;
            var windowHalfY = Native.window.Height / 2;

            //var postprocessing = { enabled : true };

            var orbitRadius = 200;

            var bgColor  = 0x000511;
            var sunColor = 0xffee00;


            // https://sites.google.com/a/jsc-solutions.net/work/knowledge-base/15-dualvr/20151112
            var camera = new THREE.PerspectiveCamera(70, Native.window.aspect, 1, 3000);

            camera.position.z = 200;

            var scene = new THREE.Scene();

            //

            var materialDepth = new THREE.MeshDepthMaterial(new { });


            #region tree
            // X:\jsc.svn\examples\javascript\WebGL\WebGLGodRay\WebGLGodRay\Application.cs

            var materialScene = new THREE.MeshBasicMaterial(new { color = 0x000000, shading = THREE.FlatShading });
            var loader        = new THREE.JSONLoader();

            // http://stackoverflow.com/questions/16539736/do-not-use-system-runtime-compilerservices-dynamicattribute-use-the-dynamic
            // https://msdn.microsoft.com/en-us/library/system.runtime.compilerservices.dynamicattribute%28v=vs.110%29.aspx
            //System.Runtime.CompilerServices.DynamicAttribute

            loader.load(

                new Models.tree().Content.src,

                new Action <THREE.Geometry>(
                    xgeometry =>
            {
                var treeMesh = new THREE.Mesh(xgeometry, materialScene);
                treeMesh.position.set(0, -150, -150);

                var tsc = 400;
                treeMesh.scale.set(tsc, tsc, tsc);

                treeMesh.matrixAutoUpdate = false;
                treeMesh.updateMatrix();


                treeMesh.AttachTo(scene);
            }
                    )
                );
            #endregion

            // sphere

            var geo = new THREE.SphereGeometry(1, 20, 10);

            var sphereMesh = new THREE.Mesh(geo, materialScene);

            var sc = 20;
            sphereMesh.scale.set(sc, sc, sc);

            scene.add(sphereMesh);

            var renderer = new THREE.WebGLRenderer(new { antialias = false });

            renderer.setClearColor(bgColor);
            //renderer.setPixelRatio(window.devicePixelRatio);
            renderer.setSize(Native.window.Width, Native.window.Height);
            renderer.domElement.AttachToDocument();


            renderer.autoClear   = false;
            renderer.sortObjects = false;


            var postprocessing_scene = new THREE.Scene();

            var postprocessing_camera = new THREE.OrthographicCamera(Native.window.Width / -2, Native.window.Width / 2, Native.window.Height / 2, Native.window.Height / -2, -10000, 10000);
            postprocessing_camera.position.z = 100;

            postprocessing_scene.add(postprocessing_camera);

            var pars = new { minFilter = THREE.LinearFilter, magFilter = THREE.LinearFilter, format = THREE.RGBFormat };

            var postprocessing_rtTextureColors = new THREE.WebGLRenderTarget(Native.window.Width, Native.window.Height, pars);

            // Switching the depth formats to luminance from rgb doesn't seem to work. I didn't
            // investigate further for now.
            // pars.format = THREE.LuminanceFormat;

            // I would have this quarter size and use it as one of the ping-pong render
            // targets but the aliasing causes some temporal flickering

            var postprocessing_rtTextureDepth = new THREE.WebGLRenderTarget(Native.window.Width, Native.window.Height, pars);

            // Aggressive downsize god-ray ping-pong render targets to minimize cost

            var w = Native.window.Width / 4;
            var h = Native.window.Height / 4;
            var postprocessing_rtTextureGodRays1 = new THREE.WebGLRenderTarget(w, h, pars);
            var postprocessing_rtTextureGodRays2 = new THREE.WebGLRenderTarget(w, h, pars);

            // god-ray shaders

            // X:\jsc.svn\market\synergy\THREE\THREE\opensource\gihtub\three.js\build\THREE.ShaderGodRays.idl
            // these are special <script src="js/ShaderGodRays.js"></script>
            var godraysGenShader = THREE.ShaderGodRays["godrays_generate"] as dynamic;
            var postprocessing_godrayGenUniforms       = THREE.UniformsUtils.clone(godraysGenShader.uniforms);
            var postprocessing_materialGodraysGenerate = new THREE.ShaderMaterial(new
            {
                uniforms       = postprocessing_godrayGenUniforms,
                vertexShader   = godraysGenShader.vertexShader,
                fragmentShader = godraysGenShader.fragmentShader
            });

            var godraysCombineShader = THREE.ShaderGodRays["godrays_combine"] as dynamic;
            var postprocessing_godrayCombineUniforms  = THREE.UniformsUtils.clone(godraysCombineShader.uniforms);
            var postprocessing_materialGodraysCombine = new THREE.ShaderMaterial(new
            {
                uniforms       = postprocessing_godrayCombineUniforms,
                vertexShader   = godraysCombineShader.vertexShader,
                fragmentShader = godraysCombineShader.fragmentShader
            });

            var godraysFakeSunShader = THREE.ShaderGodRays["godrays_fake_sun"] as dynamic;
            var postprocessing_godraysFakeSunUniforms = THREE.UniformsUtils.clone(godraysFakeSunShader.uniforms);
            var postprocessing_materialGodraysFakeSun = new THREE.ShaderMaterial(new
            {
                uniforms       = postprocessing_godraysFakeSunUniforms,
                vertexShader   = godraysFakeSunShader.vertexShader,
                fragmentShader = godraysFakeSunShader.fragmentShader
            });

            postprocessing_godraysFakeSunUniforms.bgColor.value.setHex(bgColor);
            postprocessing_godraysFakeSunUniforms.sunColor.value.setHex(sunColor);

            postprocessing_godrayCombineUniforms.fGodRayIntensity.value = 0.75;

            var postprocessing_quad = new THREE.Mesh(
                new THREE.PlaneBufferGeometry(Native.window.Width, Native.window.Height),
                postprocessing_materialGodraysGenerate
                );
            postprocessing_quad.position.z = -9900;
            postprocessing_scene.add(postprocessing_quad);


            #region create field

            // THREE.PlaneGeometry: Consider using THREE.PlaneBufferGeometry for lower memory footprint.
            var planeGeometry = new THREE.PlaneGeometry(1000, 1000);
            //var planeMaterial = new THREE.MeshLambertMaterial(
            //    new
            //    {
            //        //map = THREE.ImageUtils.loadTexture(new HTML.Images.FromAssets.dirt_tx().src),
            //        color = 0xA26D41
            //        //color = 0xff0000
            //    }
            //);

            //planeMaterial.map.repeat.x = 300;
            //planeMaterial.map.repeat.y = 300;
            //planeMaterial.map.wrapS = THREE.RepeatWrapping;
            //planeMaterial.map.wrapT = THREE.RepeatWrapping;
            var plane = new THREE.Mesh(planeGeometry,
                                       new THREE.MeshPhongMaterial(new { ambient = 0x101010, color = 0xA26D41, specular = 0xA26D41, shininess = 1 })

                                       );
            plane.castShadow    = false;
            plane.receiveShadow = true;


            {
                var parent = new THREE.Object3D();
                parent.add(plane);

                parent.position.y = -.5f * 100;

                parent.rotation.x = -Math.PI / 2;
                parent.scale.set(100, 100, 100);

                //scene.add(parent);
            }

            var random    = new Random();
            var meshArray = new List <THREE.Mesh>();
            var geometry  = new THREE.CubeGeometry(1, 1, 1);

            for (var i = 1; i < 100; i++)
            {
                //THREE.MeshPhongMaterial
                var ii = new THREE.Mesh(geometry,


                                        new THREE.MeshPhongMaterial(new { ambient = 0x000000, color = 0xA06040, specular = 0xA26D41, shininess = 1 })

                                        //new THREE.MeshLambertMaterial(
                                        //new
                                        //{
                                        //    color = (Convert.ToInt32(0xffffff * random.NextDouble())),
                                        //    specular = 0xffaaaa,
                                        //    ambient= 0x050505,
                                        //})

                                        );
                ii.position.x = i % 2 * 500 - 2.5f;

                // raise it up
                ii.position.y    = .5f * 100;
                ii.position.z    = -1 * i * 400;
                ii.castShadow    = true;
                ii.receiveShadow = true;
                //ii.scale.set(100, 100, 100 * i);
                ii.scale.set(100, 100 * i, 100);


                meshArray.Add(ii);

                scene.add(ii);
            }
            #endregion



            #region Comanche
            new Comanche().Source.Task.ContinueWithResult(
                Comanche =>
            {
                Comanche.position.y = 200;

                //dae.position.z = 280;

                Comanche.AttachTo(scene);

                //scene.add(dae);
                //oo.Add(Comanche);

                // wont do it
                //dae.castShadow = true;

                // http://stackoverflow.com/questions/15492857/any-way-to-get-a-bounding-box-from-a-three-js-object3d
                //var helper = new THREE.BoundingBoxHelper(dae, 0xff0000);
                //helper.update();
                //// If you want a visible bounding box
                //scene.add(helper);

                Comanche.children[0].children[0].children.WithEach(x => x.castShadow = true);


                // the rotors?
                Comanche.children[0].children[0].children.Last().children.WithEach(x => x.castShadow = true);


                Comanche.scale.set(0.5, 0.5, 0.5);
                //helper.scale.set(0.5, 0.5, 0.5);

                var s2w = Stopwatch.StartNew();

                Native.window.onframe += delegate
                {
                    //dae.children[0].children[0].children.Last().al
                    //dae.children[0].children[0].children.Last().rotation.z = sw.ElapsedMilliseconds * 0.01;
                    //dae.children[0].children[0].children.Last().rotation.x = sw.ElapsedMilliseconds * 0.01;
                    //rotation.y = sw.ElapsedMilliseconds * 0.01;

                    Comanche.children[0].children[0].children.Last().rotation.y = s2w.ElapsedMilliseconds * 0.001;

                    //dae.children[0].children[0].children.Last().app
                };
            }
                );
            #endregion



            var sw = Stopwatch.StartNew();

            var controls = new THREE.OrbitControls(camera, renderer.domElement);

            // Show Details	Severity	Code	Description	Project	File	Line
            //Error CS0229  Ambiguity between 'THREE.Math' and 'Math'   WebGLGodRay Application.cs  238

            Native.window.onframe +=
                delegate
            {
                //var time = IDate.now() / 4000;
                var time = sw.ElapsedMilliseconds / 4000.0;

                sphereMesh.position.x = orbitRadius * Math.Cos(time);
                sphereMesh.position.z = orbitRadius * Math.Sin(time) - 100;



                //controls.center.copy(blendMesh.position);
                //controls.center.y += radius * 2.0;
                controls.update();

                //var camOffset = camera.position.clone().sub(controls.center);
                //camOffset.normalize().multiplyScalar(750);
                camera.position = controls.center.clone();


                //camera.position.x += (mouseX - camera.position.x) * 0.036;
                //camera.position.y += (-(mouseY) - camera.position.y) * 0.036;

                //camera.lookAt(scene.position);


                // Find the screenspace position of the sun

                screenSpacePosition.copy(sunPosition).project(camera);

                screenSpacePosition.x = (screenSpacePosition.x + 1) / 2;
                screenSpacePosition.y = (screenSpacePosition.y + 1) / 2;

                // Give it to the god-ray and sun shaders

                postprocessing_godrayGenUniforms["vSunPositionScreenSpace"].value.x = screenSpacePosition.x;
                postprocessing_godrayGenUniforms["vSunPositionScreenSpace"].value.y = screenSpacePosition.y;

                postprocessing_godraysFakeSunUniforms["vSunPositionScreenSpace"].value.x = screenSpacePosition.x;
                postprocessing_godraysFakeSunUniforms["vSunPositionScreenSpace"].value.y = screenSpacePosition.y;

                // -- Draw sky and sun --

                // Clear colors and depths, will clear to sky color

                renderer.clearTarget(postprocessing_rtTextureColors, true, true, false);

                // Sun render. Runs a shader that gives a brightness based on the screen
                // space distance to the sun. Not very efficient, so i make a scissor
                // rectangle around the suns position to avoid rendering surrounding pixels.

                var sunsqH = 0.74 * Native.window.Height;     // 0.74 depends on extent of sun from shader
                var sunsqW = 0.74 * Native.window.Height;     // both depend on height because sun is aspect-corrected

                screenSpacePosition.x *= Native.window.Width;
                screenSpacePosition.y *= Native.window.Height;

                renderer.setScissor(screenSpacePosition.x - sunsqW / 2, screenSpacePosition.y - sunsqH / 2, sunsqW, sunsqH);
                renderer.enableScissorTest(true);

                postprocessing_godraysFakeSunUniforms["fAspect"].value = Native.window.aspect;

                postprocessing_scene.overrideMaterial = postprocessing_materialGodraysFakeSun;
                renderer.render(postprocessing_scene, postprocessing_camera, postprocessing_rtTextureColors);

                renderer.enableScissorTest(false);

                // -- Draw scene objects --

                // Colors

                scene.overrideMaterial = null;
                renderer.render(scene, camera, postprocessing_rtTextureColors);

                // Depth

                scene.overrideMaterial = materialDepth;
                renderer.render(scene, camera, postprocessing_rtTextureDepth, true);

                // -- Render god-rays --

                // Maximum length of god-rays (in texture space [0,1]X[0,1])

                var filterLen = 1.0;

                // Samples taken by filter

                var TAPS_PER_PASS = 6.0;

                // Pass order could equivalently be 3,2,1 (instead of 1,2,3), which
                // would start with a small filter support and grow to large. however
                // the large-to-small order produces less objectionable aliasing artifacts that
                // appear as a glimmer along the length of the beams

                // pass 1 - render into first ping-pong target

                var pass    = 1.0;
                var stepLen = filterLen * Math.Pow(TAPS_PER_PASS, -pass);

                postprocessing_godrayGenUniforms["fStepSize"].value = stepLen;
                postprocessing_godrayGenUniforms["tInput"].value    = postprocessing_rtTextureDepth;

                postprocessing_scene.overrideMaterial = postprocessing_materialGodraysGenerate;

                renderer.render(postprocessing_scene, postprocessing_camera, postprocessing_rtTextureGodRays2);

                // pass 2 - render into second ping-pong target

                pass    = 2.0;
                stepLen = filterLen * Math.Pow(TAPS_PER_PASS, -pass);

                postprocessing_godrayGenUniforms["fStepSize"].value = stepLen;
                postprocessing_godrayGenUniforms["tInput"].value    = postprocessing_rtTextureGodRays2;

                renderer.render(postprocessing_scene, postprocessing_camera, postprocessing_rtTextureGodRays1);

                // pass 3 - 1st RT

                pass    = 3.0;
                stepLen = filterLen * Math.Pow(TAPS_PER_PASS, -pass);

                postprocessing_godrayGenUniforms["fStepSize"].value = stepLen;
                postprocessing_godrayGenUniforms["tInput"].value    = postprocessing_rtTextureGodRays1;

                renderer.render(postprocessing_scene, postprocessing_camera, postprocessing_rtTextureGodRays2);

                // final pass - composite god-rays onto colors

                postprocessing_godrayCombineUniforms["tColors"].value  = postprocessing_rtTextureColors;
                postprocessing_godrayCombineUniforms["tGodRays"].value = postprocessing_rtTextureGodRays2;

                postprocessing_scene.overrideMaterial = postprocessing_materialGodraysCombine;

                renderer.render(postprocessing_scene, postprocessing_camera);
                postprocessing_scene.overrideMaterial = null;
            };



            new { }.With(
                async delegate
            {
                //while (true)
                do
                {
                    camera.aspect = Native.window.aspect;
                    camera.updateProjectionMatrix();
                    renderer.setSize(Native.window.Width, Native.window.Height);

                    // convert to bool?
                } while (await Native.window.async.onresize);
                //} while (await Native.window.async.onresize != null);
            }
                );

            //var ze = new ZeProperties();

            //ze.Show();

            //ze.treeView1.Nodes.Clear();

            //ze.Add(() => renderer);
            //ze.Add(() => controls);
            //ze.Add(() => scene);
            //ze.Left = 0;
        }
Exemple #5
0
        /* Source: http://www.webspaceinvader.com/2011/09/21/first-try-at-webgl/
         */


        /// <summary>
        /// This is a javascript application.
        /// </summary>
        /// <param name="page">HTML document rendered by the web server which can now be enhanced.</param>
        public Application(IDefault page = null)
        {
            var SCREEN_WIDTH  = Native.window.Width;
            var SCREEN_HEIGHT = Native.window.Height;

            //var ,stats;


            //var mesh, zmesh, geometry;

            var mouseX = 0;
            var mouseY = 0;

            var windowHalfX = SCREEN_WIDTH / 2;
            var windowHalfY = SCREEN_HEIGHT / 2;
            var lastUpdate  = new IDate().getTime();



            Native.document.body.style.overflow = IStyle.OverflowEnum.hidden;
            var container = new IHTMLDiv();

            container.AttachToDocument();
            container.style.SetLocation(0, 0, Native.window.Width, Native.window.Height);

            var camera = new THREE.PerspectiveCamera(75, Native.window.aspect, 1, 100000);

            camera.position.z = 50;
            camera.updateMatrix();

            var scene = new THREE.Scene();

            // LIGHTS

            var ambient = new THREE.AmbientLight(0x222222);

            ambient.position.z = -300;
            scene.add(ambient);

            var directionalLight = new THREE.DirectionalLight(0xffeedd);

            directionalLight.position.set(-1, 0, 1);
            directionalLight.position.normalize();
            scene.add(directionalLight);

            var dLight = new THREE.DirectionalLight(0xffeedd);

            dLight.position.set(1, 0, 1);
            dLight.position.normalize();
            scene.add(dLight);

            // init the WebGL renderer and append it to the Dom
            var renderer = new THREE.WebGLRenderer();

            renderer.setSize(SCREEN_WIDTH, SCREEN_HEIGHT);
            renderer.autoClear = false;

            renderer.domElement.AttachTo(container);

            #region createScene
            Action <object, f, f, f, f> createScene = (geometry, x, y, z, b) =>
            {
                //var zmesh = new THREE.Mesh(geometry, new THREE.MeshFaceMaterial());
                var zmesh = new THREE.Mesh(geometry);
                zmesh.position.x = x;
                zmesh.position.z = y;
                zmesh.position.y = z;
                zmesh.scale.x    = 5f;
                zmesh.scale.y    = 5f;
                zmesh.scale.z    = 5f;
                //zmesh.overdraw = true;
                zmesh.updateMatrix();
                scene.add(zmesh);
            };
            #endregion

            // message: "Unexpected token /"
            var loader = new THREE.JSONLoader();

            Action <object> callbackMale = (geometry) => { createScene(geometry, 90, 50, 0, 105); };

            loader.load(
                url: new invade().Content.src,
                callback: IFunction.OfDelegate(callbackMale)
                );

            // postprocessing



            var composer = new THREE.EffectComposer(renderer);

            var renderModel = new THREE.RenderPass(scene, camera);
            composer.addPass(renderModel);


            var effectFilm = new THREE.FilmPass(0.35, 0.50, 2048, false); //( 0.35, 0.75, 2048, false );
            effectFilm.renderToScreen = true;
            composer.addPass(effectFilm);

            #region IsDisposed
            var IsDisposed = false;

            Dispose = delegate
            {
                if (IsDisposed)
                {
                    return;
                }

                IsDisposed = true;

                renderer.domElement.Orphanize();
            };
            #endregion


            #region getFrametime
            Func <long> getFrametime = () =>
            {
                var now   = new IDate().getTime();
                var tdiff = (now - lastUpdate) / 1000;
                lastUpdate = now;
                return(tdiff);
            };
            #endregion

            #region render
            Action render = delegate
            {
                var delta = getFrametime();
                camera.position.x += (mouseX - camera.position.x) * .05f;
                camera.position.y += (-mouseY - camera.position.y) * .05f;
                camera.updateMatrix();

                //renderer.render( scene, camera );
                renderer.clear();
                composer.render(delta);
            };
            #endregion

            #region onmousemove
            Native.document.onmousemove +=
                e =>
            {
                mouseX = (e.CursorX - windowHalfX);
                mouseY = (e.CursorY - windowHalfY);
            };
            #endregion

            Native.window.onframe +=
                delegate
            {
                if (IsDisposed)
                {
                    return;
                }

                render();
            };


            #region AtResize
            Action AtResize = delegate
            {
                container.style.SetLocation(0, 0, Native.window.Width, Native.window.Height);

                camera.aspect = Native.window.aspect;
                camera.updateProjectionMatrix();

                renderer.setSize(Native.window.Width, Native.window.Height);
            };

            Native.window.onresize +=
                delegate
            {
                AtResize();
            };

            AtResize();
            #endregion

            #region requestFullscreen
            Native.document.body.ondblclick +=
                delegate
            {
                if (IsDisposed)
                {
                    return;
                }

                // http://tutorialzine.com/2012/02/enhance-your-website-fullscreen-api/

                Native.document.body.requestFullscreen();
            };
            #endregion
        }
        // Could not connect to the feed specified at 'http://my.jsc-solutions.net/nuget'. P


        public Application(IApp page)
        {
            //{ var ref0 = typeof(dirt_tx); }
            { var ref0 = new dirt_tx { }; }
            //{ var ref0 = typeof(MarineCv2_color); }
            { var ref0 = new MarineCv2_color { }; }

            // http://www.realitymeltdown.com/WebGL3/character-controller.html

            // https://sites.google.com/a/jsc-solutions.net/backlog/knowledge-base/2015/201501/20150127
            //Native.css
            Native.body.style.margin = "0px";
            Native.body.style.overflow = IStyle.OverflowEnum.hidden;

            //Error CS0246  The type or namespace name 'THREE' could not be found(are you missing a using directive or an assembly reference?)	WebGLSpeedBlendCharacter Application.cs  46
            // used by, for?
            var clock = new THREE.Clock();
            //var keys = new { LEFT = 37, UP = 38, RIGHT = 39, DOWN = 40, A = 65, S = 83, D = 68, W = 87 };


            var scene = new THREE.Scene();
            var skyScene = new THREE.Scene();
            scene.fog = new THREE.Fog(0xB0CAE1, 1000, 20000);
            scene.add(new THREE.AmbientLight(0xaaaaaa));

            var lightOffset = new THREE.Vector3(0, 1000, 1000.0);

            var light = new THREE.DirectionalLight(0xffffff, 1.5);
            light.position.copy(lightOffset);
            light.castShadow = true;

            var xlight = light as dynamic;
            xlight.shadowMapWidth = 4096;
            xlight.shadowMapHeight = 2048;
            xlight.shadowDarkness = 0.5;
            xlight.shadowCameraNear = 10;
            xlight.shadowCameraFar = 10000;
            xlight.shadowBias = 0.00001;
            xlight.shadowCameraRight = 4000;
            xlight.shadowCameraLeft = -4000;
            xlight.shadowCameraTop = 4000;
            xlight.shadowCameraBottom = -4000;
            xlight.shadowCameraVisible = true;

            scene.add(light);

            #region renderer
            var renderer = new THREE.WebGLRenderer(new { antialias = true, alpha = false });
            renderer.setSize(Native.window.Width, Native.window.Height);
            renderer.autoClear = false;
            renderer.shadowMapEnabled = true;
            renderer.shadowMapType = THREE.PCFSoftShadowMap;

            renderer.domElement.AttachToDocument();
            #endregion



            // this will mess up
            // three.OrbitControls.js
            // onMouseMove

            //new IStyle(renderer.domElement)
            //{
            //    position = IStyle.PositionEnum.absolute,
            //    left = "0px",
            //    top = "0px",
            //    right = "0px",
            //    bottom = "0px",
            //};


            //new { }.With(
            //    async delegate
            //    {

            //        await Native.window.async.onresize;

            //        // if the reload were fast, then we could actually do that:D
            //        Native.document.location.reload();

            //    }
            //);





            #region create field

            // THREE.PlaneGeometry: Consider using THREE.PlaneBufferGeometry for lower memory footprint.
            //var planeGeometry = new THREE.PlaneGeometry(1000, 1000);
            //var planeMaterial = new THREE.MeshLambertMaterial(
            //    new
            //    {
            //        map = THREE.ImageUtils.loadTexture(new HTML.Images.FromAssets.dirt_tx().src),
            //        color = 0xffffff
            //    }
            //);

            //planeMaterial.map.repeat.x = 300;
            //planeMaterial.map.repeat.y = 300;
            //planeMaterial.map.wrapS = THREE.RepeatWrapping;
            //planeMaterial.map.wrapT = THREE.RepeatWrapping;
            //var plane = new THREE.Mesh(planeGeometry, planeMaterial);
            //plane.castShadow = false;
            //plane.receiveShadow = true;


            //{

            //    var parent = new THREE.Object3D();
            //    parent.add(plane);
            //    parent.rotation.x = -Math.PI / 2;
            //    parent.scale.set(100, 100, 100);

            //    scene.add(parent);
            //}

            var random = new Random();
            var meshArray = new List<THREE.Mesh>();
            //var geometry = new THREE.CubeGeometry(1, 1, 1);
            var geometry = new THREE.BoxGeometry(1, 1, 1);

            for (var i = 1; i < 100; i++)
            {

                var ii = new THREE.Mesh(geometry, new THREE.MeshLambertMaterial(
                    new
                    {
                        color = (Convert.ToInt32(0xffffff * random.NextDouble()))
                    }));
                ii.position.x = i % 2 * 500 - 2.5f;

                // raise it up
                ii.position.y = .5f * 100;
                ii.position.z = -1 * i * 400;
                ii.castShadow = true;
                ii.receiveShadow = true;
                //ii.scale.set(100, 100, 100 * i);
                ii.scale.set(100, 100 * i, 100);


                meshArray.Add(ii);

                scene.add(ii);

            }
            #endregion





            var blendMesh = new THREE.SpeedBlendCharacter();


            blendMesh.load(
                new Models.marine_anims().Content.src,
                new Action(
                    delegate
                    {
                        // buildScene

                        //blendMesh.rotation.y = Math.PI * -135 / 180;
                        blendMesh.castShadow = true;
                        // we cannot scale down we want our shadows
                        //blendMesh.scale.set(0.1, 0.1, 0.1);

                        scene.add(blendMesh);

                        //var characterController = new THREE.CharacterController(blendMesh);

                        // run
                        blendMesh.setSpeed(1.0);

                        var radius = blendMesh.geometry.boundingSphere.radius;


                        Native.document.title = new { radius }.ToString();


                        var camera = new THREE.PerspectiveCamera(45, Native.window.aspect, 1, 20000);
                        camera.position.set(0.0, radius * 3, radius * 3.5);

                        var skyCamera = new THREE.PerspectiveCamera(45, Native.window.aspect, 1, 20000);
                        skyCamera.position.set(0.0, radius * 3, radius * 3.5);

                        var controls = new THREE.OrbitControls(camera);
                        //controls.noPan = true;


                        var loader = new THREE.JSONLoader();
                        loader.load(new Models.ground().Content.src,
                            new Action<THREE.Geometry, THREE.Material[]>(

                            (xgeometry, materials) =>
                            {
                                // cannot see the ground?
                                var ground = new THREE.Mesh(xgeometry, materials[0]);
                                ground.scale.set(20, 20, 20);
                                ground.receiveShadow = true;
                                ground.castShadow = true;
                                scene.add(ground);

                            }
                            )
                         );

                        #region  createSky
                        // gearvr has photos360 app
                        var urls = new[] {
                            new px().src, new nx().src,
                            new py().src, new ny().src,
                            new pz().src, new nz().src,
                         };

                        var textureCube = THREE.ImageUtils.loadTextureCube(urls);

                        dynamic shader = THREE.ShaderLib["cube"];
                        shader.uniforms["tCube"].value = textureCube;

                        // We're inside the box, so make sure to render the backsides
                        // It will typically be rendered first in the scene and without depth so anything else will be drawn in front
                        var material = new THREE.ShaderMaterial(new
                        {
                            fragmentShader = shader.fragmentShader,
                            vertexShader = shader.vertexShader,
                            uniforms = shader.uniforms,
                            depthWrite = false,
                            side = THREE.BackSide
                        });

                        // THREE.CubeGeometry has been renamed to THREE.BoxGeometry
                        // The box dimension size doesn't matter that much when the camera is in the center.  Experiment with the values.
                        //var skyMesh = new THREE.Mesh(new THREE.CubeGeometry(10000, 10000, 10000, 1, 1, 1), material);
                        var skyMesh = new THREE.Mesh(new THREE.BoxGeometry(10000, 10000, 10000), material);
                        //skyMesh.renderDepth = -10;


                        skyScene.add(skyMesh);
                        #endregion

                        #region onframe
                        Native.window.onframe +=
                            delegate
                            {
                                var scale = 1.0;
                                var delta = clock.getDelta();
                                var stepSize = delta * scale;

                                if (stepSize > 0)
                                {
                                    //characterController.update(stepSize, scale);
                                    //gui.setSpeed(blendMesh.speed);

                                    THREE.AnimationHandler.update(stepSize);
                                    blendMesh.updateSkeletonHelper();
                                }

                                controls.center.copy(blendMesh.position);
                                controls.center.y += radius * 2.0;
                                controls.update();

                                var camOffset = camera.position.clone().sub(controls.center);
                                camOffset.normalize().multiplyScalar(750);
                                camera.position = controls.center.clone().add(camOffset);

                                skyCamera.rotation.copy(camera.rotation);



                                renderer.clear();
                                renderer.render(skyScene, skyCamera);
                                renderer.render(scene, camera);
                            };
                        #endregion


                        #region onresize
                        new { }.With(
                              async delegate
                              {
                                  do
                                  {
                                      camera.aspect = Native.window.aspect;
                                      camera.updateProjectionMatrix();
                                      renderer.setSize(Native.window.Width, Native.window.Height);

                                  } while (await Native.window.async.onresize);
                              }
                          );
                        #endregion


                    }
                )
           );




        }
        /// <summary>
        /// This is a javascript application.
        /// </summary>
        /// <param name="page">HTML document rendered by the web server which can now be enhanced.</param>
        public Application(IApp page)
        {
            // http://threejs.org/examples/#webgl_postprocessing_godrays
            // view-source:file:///X:/opensource/github/three.js/examples/webgl_postprocessing_godrays.html

            Native.body.style.margin = "0px";
            Native.body.style.overflow = IStyle.OverflowEnum.hidden;
            Native.body.Clear();


            var sunPosition = new THREE.Vector3(0, 1000, -1000);
            var screenSpacePosition = new THREE.Vector3();

            var mouseX = 0;
            var mouseY = 0;

            var windowHalfX = Native.window.Width / 2;
            var windowHalfY = Native.window.Height / 2;

            //var postprocessing = { enabled : true };

            var orbitRadius = 200;

            var bgColor = 0x000511;
            var sunColor = 0xffee00;


            // https://sites.google.com/a/jsc-solutions.net/work/knowledge-base/15-dualvr/20151112
            var camera = new THREE.PerspectiveCamera(70, Native.window.aspect, 1, 3000);
            camera.position.z = 200;

            var scene = new THREE.Scene();

            //

            var materialDepth = new THREE.MeshDepthMaterial(new { });


            #region tree
            // X:\jsc.svn\examples\javascript\WebGL\WebGLGodRay\WebGLGodRay\Application.cs

            var materialScene = new THREE.MeshBasicMaterial(new { color = 0x000000, shading = THREE.FlatShading });
            var loader = new THREE.JSONLoader();

            // http://stackoverflow.com/questions/16539736/do-not-use-system-runtime-compilerservices-dynamicattribute-use-the-dynamic
            // https://msdn.microsoft.com/en-us/library/system.runtime.compilerservices.dynamicattribute%28v=vs.110%29.aspx
            //System.Runtime.CompilerServices.DynamicAttribute

            loader.load(

                new Models.tree().Content.src,

                new Action<THREE.Geometry>(
                xgeometry =>
                {

                    var treeMesh = new THREE.Mesh(xgeometry, materialScene);
                    treeMesh.position.set(0, -150, -150);

                    var tsc = 400;
                    treeMesh.scale.set(tsc, tsc, tsc);

                    treeMesh.matrixAutoUpdate = false;
                    treeMesh.updateMatrix();


                    treeMesh.AttachTo(scene);

                }
                )
                );
            #endregion

            // sphere

            var geo = new THREE.SphereGeometry(1, 20, 10);

            var sphereMesh = new THREE.Mesh(geo, materialScene);

            var sc = 20;
            sphereMesh.scale.set(sc, sc, sc);

            scene.add(sphereMesh);

            var renderer = new THREE.WebGLRenderer(new { antialias = false });

            renderer.setClearColor(bgColor);
            //renderer.setPixelRatio(window.devicePixelRatio);
            renderer.setSize(Native.window.Width, Native.window.Height);
            renderer.domElement.AttachToDocument();


            renderer.autoClear = false;
            renderer.sortObjects = false;


            var postprocessing_scene = new THREE.Scene();

            var postprocessing_camera = new THREE.OrthographicCamera(Native.window.Width / -2, Native.window.Width / 2, Native.window.Height / 2, Native.window.Height / -2, -10000, 10000);
            postprocessing_camera.position.z = 100;

            postprocessing_scene.add(postprocessing_camera);

            var pars = new { minFilter = THREE.LinearFilter, magFilter = THREE.LinearFilter, format = THREE.RGBFormat };

            var postprocessing_rtTextureColors = new THREE.WebGLRenderTarget(Native.window.Width, Native.window.Height, pars);

            // Switching the depth formats to luminance from rgb doesn't seem to work. I didn't
            // investigate further for now.
            // pars.format = THREE.LuminanceFormat;

            // I would have this quarter size and use it as one of the ping-pong render
            // targets but the aliasing causes some temporal flickering

            var postprocessing_rtTextureDepth = new THREE.WebGLRenderTarget(Native.window.Width, Native.window.Height, pars);

            // Aggressive downsize god-ray ping-pong render targets to minimize cost

            var w = Native.window.Width / 4;
            var h = Native.window.Height / 4;
            var postprocessing_rtTextureGodRays1 = new THREE.WebGLRenderTarget(w, h, pars);
            var postprocessing_rtTextureGodRays2 = new THREE.WebGLRenderTarget(w, h, pars);

            // god-ray shaders

            // X:\jsc.svn\market\synergy\THREE\THREE\opensource\gihtub\three.js\build\THREE.ShaderGodRays.idl
            // these are special <script src="js/ShaderGodRays.js"></script>
            var godraysGenShader = THREE.ShaderGodRays["godrays_generate"] as dynamic;
            var postprocessing_godrayGenUniforms = THREE.UniformsUtils.clone(godraysGenShader.uniforms);
            var postprocessing_materialGodraysGenerate = new THREE.ShaderMaterial(new
            {

                uniforms = postprocessing_godrayGenUniforms,
                vertexShader = godraysGenShader.vertexShader,
                fragmentShader = godraysGenShader.fragmentShader

            });

            var godraysCombineShader = THREE.ShaderGodRays["godrays_combine"] as dynamic;
            var postprocessing_godrayCombineUniforms = THREE.UniformsUtils.clone(godraysCombineShader.uniforms);
            var postprocessing_materialGodraysCombine = new THREE.ShaderMaterial(new
            {

                uniforms = postprocessing_godrayCombineUniforms,
                vertexShader = godraysCombineShader.vertexShader,
                fragmentShader = godraysCombineShader.fragmentShader

            });

            var godraysFakeSunShader = THREE.ShaderGodRays["godrays_fake_sun"] as dynamic;
            var postprocessing_godraysFakeSunUniforms = THREE.UniformsUtils.clone(godraysFakeSunShader.uniforms);
            var postprocessing_materialGodraysFakeSun = new THREE.ShaderMaterial(new
            {

                uniforms = postprocessing_godraysFakeSunUniforms,
                vertexShader = godraysFakeSunShader.vertexShader,
                fragmentShader = godraysFakeSunShader.fragmentShader

            });

            postprocessing_godraysFakeSunUniforms.bgColor.value.setHex(bgColor);
            postprocessing_godraysFakeSunUniforms.sunColor.value.setHex(sunColor);

            postprocessing_godrayCombineUniforms.fGodRayIntensity.value = 0.75;

            var postprocessing_quad = new THREE.Mesh(
                new THREE.PlaneBufferGeometry(Native.window.Width, Native.window.Height),
                postprocessing_materialGodraysGenerate
            );
            postprocessing_quad.position.z = -9900;
            postprocessing_scene.add(postprocessing_quad);


            #region create field

            // THREE.PlaneGeometry: Consider using THREE.PlaneBufferGeometry for lower memory footprint.
            var planeGeometry = new THREE.PlaneGeometry(1000, 1000);
            //var planeMaterial = new THREE.MeshLambertMaterial(
            //    new
            //    {
            //        //map = THREE.ImageUtils.loadTexture(new HTML.Images.FromAssets.dirt_tx().src),
            //        color = 0xA26D41
            //        //color = 0xff0000
            //    }
            //);

            //planeMaterial.map.repeat.x = 300;
            //planeMaterial.map.repeat.y = 300;
            //planeMaterial.map.wrapS = THREE.RepeatWrapping;
            //planeMaterial.map.wrapT = THREE.RepeatWrapping;
            var plane = new THREE.Mesh(planeGeometry,
                    new THREE.MeshPhongMaterial(new { ambient = 0x101010, color = 0xA26D41, specular = 0xA26D41, shininess = 1 })

                );
            plane.castShadow = false;
            plane.receiveShadow = true;


            {

                var parent = new THREE.Object3D();
                parent.add(plane);

                parent.position.y = -.5f * 100;

                parent.rotation.x = -Math.PI / 2;
                parent.scale.set(100, 100, 100);

                //scene.add(parent);
            }

            var random = new Random();
            var meshArray = new List<THREE.Mesh>();
            var geometry = new THREE.CubeGeometry(1, 1, 1);

            for (var i = 1; i < 100; i++)
            {

                //THREE.MeshPhongMaterial
                var ii = new THREE.Mesh(geometry,


                    new THREE.MeshPhongMaterial(new { ambient = 0x000000, color = 0xA06040, specular = 0xA26D41, shininess = 1 })

                    //new THREE.MeshLambertMaterial(
                    //new
                    //{
                    //    color = (Convert.ToInt32(0xffffff * random.NextDouble())),
                    //    specular = 0xffaaaa,
                    //    ambient= 0x050505, 
                    //})

                    );
                ii.position.x = i % 2 * 500 - 2.5f;

                // raise it up
                ii.position.y = .5f * 100;
                ii.position.z = -1 * i * 400;
                ii.castShadow = true;
                ii.receiveShadow = true;
                //ii.scale.set(100, 100, 100 * i);
                ii.scale.set(100, 100 * i, 100);


                meshArray.Add(ii);

                scene.add(ii);

            }
            #endregion




            #region Comanche
            new Comanche().Source.Task.ContinueWithResult(
                Comanche =>
                {

                    Comanche.position.y = 200;

                    //dae.position.z = 280;

                    Comanche.AttachTo(scene);

                    //scene.add(dae);
                    //oo.Add(Comanche);

                    // wont do it
                    //dae.castShadow = true;

                    // http://stackoverflow.com/questions/15492857/any-way-to-get-a-bounding-box-from-a-three-js-object3d
                    //var helper = new THREE.BoundingBoxHelper(dae, 0xff0000);
                    //helper.update();
                    //// If you want a visible bounding box
                    //scene.add(helper);

                    Comanche.children[0].children[0].children.WithEach(x => x.castShadow = true);


                    // the rotors?
                    Comanche.children[0].children[0].children.Last().children.WithEach(x => x.castShadow = true);


                    Comanche.scale.set(0.5, 0.5, 0.5);
                    //helper.scale.set(0.5, 0.5, 0.5);

                    var s2w = Stopwatch.StartNew();

                    Native.window.onframe += delegate
                    {
                        //dae.children[0].children[0].children.Last().al
                        //dae.children[0].children[0].children.Last().rotation.z = sw.ElapsedMilliseconds * 0.01;
                        //dae.children[0].children[0].children.Last().rotation.x = sw.ElapsedMilliseconds * 0.01;
                        //rotation.y = sw.ElapsedMilliseconds * 0.01;

                        Comanche.children[0].children[0].children.Last().rotation.y = s2w.ElapsedMilliseconds * 0.001;

                        //dae.children[0].children[0].children.Last().app
                    };
                }
            );
            #endregion




            var sw = Stopwatch.StartNew();

            var controls = new THREE.OrbitControls(camera, renderer.domElement);

            // Show Details	Severity	Code	Description	Project	File	Line
            //Error CS0229  Ambiguity between 'THREE.Math' and 'Math'   WebGLGodRay Application.cs  238

            Native.window.onframe +=
                delegate
                {
                    //var time = IDate.now() / 4000;
                    var time = sw.ElapsedMilliseconds / 4000.0;

                    sphereMesh.position.x = orbitRadius * Math.Cos(time);
                    sphereMesh.position.z = orbitRadius * Math.Sin(time) - 100;



                    //controls.center.copy(blendMesh.position);
                    //controls.center.y += radius * 2.0;
                    controls.update();

                    //var camOffset = camera.position.clone().sub(controls.center);
                    //camOffset.normalize().multiplyScalar(750);
                    camera.position = controls.center.clone();


                    //camera.position.x += (mouseX - camera.position.x) * 0.036;
                    //camera.position.y += (-(mouseY) - camera.position.y) * 0.036;

                    //camera.lookAt(scene.position);


                    // Find the screenspace position of the sun

                    screenSpacePosition.copy(sunPosition).project(camera);

                    screenSpacePosition.x = (screenSpacePosition.x + 1) / 2;
                    screenSpacePosition.y = (screenSpacePosition.y + 1) / 2;

                    // Give it to the god-ray and sun shaders

                    postprocessing_godrayGenUniforms["vSunPositionScreenSpace"].value.x = screenSpacePosition.x;
                    postprocessing_godrayGenUniforms["vSunPositionScreenSpace"].value.y = screenSpacePosition.y;

                    postprocessing_godraysFakeSunUniforms["vSunPositionScreenSpace"].value.x = screenSpacePosition.x;
                    postprocessing_godraysFakeSunUniforms["vSunPositionScreenSpace"].value.y = screenSpacePosition.y;

                    // -- Draw sky and sun --

                    // Clear colors and depths, will clear to sky color

                    renderer.clearTarget(postprocessing_rtTextureColors, true, true, false);

                    // Sun render. Runs a shader that gives a brightness based on the screen
                    // space distance to the sun. Not very efficient, so i make a scissor
                    // rectangle around the suns position to avoid rendering surrounding pixels.

                    var sunsqH = 0.74 * Native.window.Height; // 0.74 depends on extent of sun from shader
                    var sunsqW = 0.74 * Native.window.Height; // both depend on height because sun is aspect-corrected

                    screenSpacePosition.x *= Native.window.Width;
                    screenSpacePosition.y *= Native.window.Height;

                    renderer.setScissor(screenSpacePosition.x - sunsqW / 2, screenSpacePosition.y - sunsqH / 2, sunsqW, sunsqH);
                    renderer.enableScissorTest(true);

                    postprocessing_godraysFakeSunUniforms["fAspect"].value = Native.window.aspect;

                    postprocessing_scene.overrideMaterial = postprocessing_materialGodraysFakeSun;
                    renderer.render(postprocessing_scene, postprocessing_camera, postprocessing_rtTextureColors);

                    renderer.enableScissorTest(false);

                    // -- Draw scene objects --

                    // Colors

                    scene.overrideMaterial = null;
                    renderer.render(scene, camera, postprocessing_rtTextureColors);

                    // Depth

                    scene.overrideMaterial = materialDepth;
                    renderer.render(scene, camera, postprocessing_rtTextureDepth, true);

                    // -- Render god-rays --

                    // Maximum length of god-rays (in texture space [0,1]X[0,1])

                    var filterLen = 1.0;

                    // Samples taken by filter

                    var TAPS_PER_PASS = 6.0;

                    // Pass order could equivalently be 3,2,1 (instead of 1,2,3), which
                    // would start with a small filter support and grow to large. however
                    // the large-to-small order produces less objectionable aliasing artifacts that
                    // appear as a glimmer along the length of the beams

                    // pass 1 - render into first ping-pong target

                    var pass = 1.0;
                    var stepLen = filterLen * Math.Pow(TAPS_PER_PASS, -pass);

                    postprocessing_godrayGenUniforms["fStepSize"].value = stepLen;
                    postprocessing_godrayGenUniforms["tInput"].value = postprocessing_rtTextureDepth;

                    postprocessing_scene.overrideMaterial = postprocessing_materialGodraysGenerate;

                    renderer.render(postprocessing_scene, postprocessing_camera, postprocessing_rtTextureGodRays2);

                    // pass 2 - render into second ping-pong target

                    pass = 2.0;
                    stepLen = filterLen * Math.Pow(TAPS_PER_PASS, -pass);

                    postprocessing_godrayGenUniforms["fStepSize"].value = stepLen;
                    postprocessing_godrayGenUniforms["tInput"].value = postprocessing_rtTextureGodRays2;

                    renderer.render(postprocessing_scene, postprocessing_camera, postprocessing_rtTextureGodRays1);

                    // pass 3 - 1st RT

                    pass = 3.0;
                    stepLen = filterLen * Math.Pow(TAPS_PER_PASS, -pass);

                    postprocessing_godrayGenUniforms["fStepSize"].value = stepLen;
                    postprocessing_godrayGenUniforms["tInput"].value = postprocessing_rtTextureGodRays1;

                    renderer.render(postprocessing_scene, postprocessing_camera, postprocessing_rtTextureGodRays2);

                    // final pass - composite god-rays onto colors

                    postprocessing_godrayCombineUniforms["tColors"].value = postprocessing_rtTextureColors;
                    postprocessing_godrayCombineUniforms["tGodRays"].value = postprocessing_rtTextureGodRays2;

                    postprocessing_scene.overrideMaterial = postprocessing_materialGodraysCombine;

                    renderer.render(postprocessing_scene, postprocessing_camera);
                    postprocessing_scene.overrideMaterial = null;


                };



            new { }.With(
                async delegate
                {
                    //while (true)
                    do
                    {
                        camera.aspect = Native.window.aspect;
                        camera.updateProjectionMatrix();
                        renderer.setSize(Native.window.Width, Native.window.Height);

                        // convert to bool?
                    } while (await Native.window.async.onresize);
                    //} while (await Native.window.async.onresize != null);

                }
            );

            //var ze = new ZeProperties();

            //ze.Show();

            //ze.treeView1.Nodes.Clear();

            //ze.Add(() => renderer);
            //ze.Add(() => controls);
            //ze.Add(() => scene);
            //ze.Left = 0;


        }
        /* Source: http://www.webspaceinvader.com/2011/09/21/first-try-at-webgl/
         */


        /// <summary>
        /// This is a javascript application.
        /// </summary>
        /// <param name="page">HTML document rendered by the web server which can now be enhanced.</param>
        public Application(IDefault page = null)
        {
            var SCREEN_WIDTH = Native.window.Width;
            var SCREEN_HEIGHT = Native.window.Height;

            //var ,stats;


            //var mesh, zmesh, geometry;

            var mouseX = 0;
            var mouseY = 0;

            var windowHalfX = SCREEN_WIDTH / 2;
            var windowHalfY = SCREEN_HEIGHT / 2;
            var lastUpdate = new IDate().getTime();




            Native.document.body.style.overflow = IStyle.OverflowEnum.hidden;
            var container = new IHTMLDiv();

            container.AttachToDocument();
            container.style.SetLocation(0, 0, Native.window.Width, Native.window.Height);

            var camera = new THREE.PerspectiveCamera(75, Native.window.aspect, 1, 100000);
            camera.position.z = 50;
            camera.updateMatrix();

            var scene = new THREE.Scene();

            // LIGHTS

            var ambient = new THREE.AmbientLight(0x222222);
            ambient.position.z = -300;
            scene.add(ambient);

            var directionalLight = new THREE.DirectionalLight(0xffeedd);
            directionalLight.position.set(-1, 0, 1);
            directionalLight.position.normalize();
            scene.add(directionalLight);

            var dLight = new THREE.DirectionalLight(0xffeedd);
            dLight.position.set(1, 0, 1);
            dLight.position.normalize();
            scene.add(dLight);

            // init the WebGL renderer and append it to the Dom
            var renderer = new THREE.WebGLRenderer();
            renderer.setSize(SCREEN_WIDTH, SCREEN_HEIGHT);
            renderer.autoClear = false;

            renderer.domElement.AttachTo(container);

            #region createScene
            Action<object, f, f, f, f> createScene = (geometry, x, y, z, b) =>
            {
                
                //var zmesh = new THREE.Mesh(geometry, new THREE.MeshFaceMaterial());
                var zmesh = new THREE.Mesh(geometry);
                zmesh.position.x = x;
                zmesh.position.z = y;
                zmesh.position.y = z;
                zmesh.scale.x = 5f;
                zmesh.scale.y = 5f;
                zmesh.scale.z = 5f;
                //zmesh.overdraw = true;
                zmesh.updateMatrix();
                scene.add(zmesh);
            };
            #endregion

            // message: "Unexpected token /"
            var loader = new THREE.JSONLoader();

            Action<object> callbackMale = (geometry) => { createScene(geometry, 90, 50, 0, 105); };

            loader.load(
                    url: new invade().Content.src,
                    callback: IFunction.OfDelegate(callbackMale)
            );

            // postprocessing



            var composer = new THREE.EffectComposer(renderer);

            var renderModel = new THREE.RenderPass(scene, camera);
            composer.addPass(renderModel);


            var effectFilm = new THREE.FilmPass(0.35, 0.50, 2048, false); //( 0.35, 0.75, 2048, false );
            effectFilm.renderToScreen = true;
            composer.addPass(effectFilm);

            #region IsDisposed
            var IsDisposed = false;

            Dispose = delegate
            {
                if (IsDisposed)
                    return;

                IsDisposed = true;

                renderer.domElement.Orphanize();
            };
            #endregion


            #region getFrametime
            Func<long> getFrametime = () =>
            {

                var now = new IDate().getTime();
                var tdiff = (now - lastUpdate) / 1000;
                lastUpdate = now;
                return tdiff;
            };
            #endregion

            #region render
            Action render = delegate
            {
                var delta = getFrametime();
                camera.position.x += (mouseX - camera.position.x) * .05f;
                camera.position.y += (-mouseY - camera.position.y) * .05f;
                camera.updateMatrix();

                //renderer.render( scene, camera );
                renderer.clear();
                composer.render(delta);
            };
            #endregion

            #region onmousemove
            Native.document.onmousemove +=
                e =>
                {
                    mouseX = (e.CursorX - windowHalfX);
                    mouseY = (e.CursorY - windowHalfY);
                };
            #endregion

            Native.window.onframe +=
            delegate
            {
                if (IsDisposed)
                    return;

                render();

            };


            #region AtResize
            Action AtResize = delegate
            {
                container.style.SetLocation(0, 0, Native.window.Width, Native.window.Height);

                camera.aspect = Native.window.aspect;
                camera.updateProjectionMatrix();

                renderer.setSize(Native.window.Width, Native.window.Height);
            };

            Native.window.onresize +=
                delegate
                {
                    AtResize();
                };

            AtResize();
            #endregion

            #region requestFullscreen
            Native.document.body.ondblclick +=
                delegate
                {
                    if (IsDisposed)
                        return;

                    // http://tutorialzine.com/2012/02/enhance-your-website-fullscreen-api/

                    Native.document.body.requestFullscreen();


                };
            #endregion

        }
Exemple #9
0
        // Could not connect to the feed specified at 'http://my.jsc-solutions.net/nuget'. P


        public Application(IApp page)
        {
            //{ var ref0 = typeof(dirt_tx); }
            { var ref0 = new dirt_tx {
              }; }
            //{ var ref0 = typeof(MarineCv2_color); }
            { var ref0 = new MarineCv2_color {
              }; }

            // http://www.realitymeltdown.com/WebGL3/character-controller.html

            // https://sites.google.com/a/jsc-solutions.net/backlog/knowledge-base/2015/201501/20150127
            //Native.css
            Native.body.style.margin   = "0px";
            Native.body.style.overflow = IStyle.OverflowEnum.hidden;

            //Error CS0246  The type or namespace name 'THREE' could not be found(are you missing a using directive or an assembly reference?)	WebGLSpeedBlendCharacter Application.cs  46
            // used by, for?
            var clock = new THREE.Clock();
            //var keys = new { LEFT = 37, UP = 38, RIGHT = 39, DOWN = 40, A = 65, S = 83, D = 68, W = 87 };


            var scene    = new THREE.Scene();
            var skyScene = new THREE.Scene();

            scene.fog = new THREE.Fog(0xB0CAE1, 1000, 20000);
            scene.add(new THREE.AmbientLight(0xaaaaaa));

            var lightOffset = new THREE.Vector3(0, 1000, 1000.0);

            var light = new THREE.DirectionalLight(0xffffff, 1.5);

            light.position.copy(lightOffset);
            light.castShadow = true;

            var xlight = light as dynamic;

            xlight.shadowMapWidth      = 4096;
            xlight.shadowMapHeight     = 2048;
            xlight.shadowDarkness      = 0.5;
            xlight.shadowCameraNear    = 10;
            xlight.shadowCameraFar     = 10000;
            xlight.shadowBias          = 0.00001;
            xlight.shadowCameraRight   = 4000;
            xlight.shadowCameraLeft    = -4000;
            xlight.shadowCameraTop     = 4000;
            xlight.shadowCameraBottom  = -4000;
            xlight.shadowCameraVisible = true;

            scene.add(light);

            #region renderer
            var renderer = new THREE.WebGLRenderer(new { antialias = true, alpha = false });
            renderer.setSize(Native.window.Width, Native.window.Height);
            renderer.autoClear        = false;
            renderer.shadowMapEnabled = true;
            renderer.shadowMapType    = THREE.PCFSoftShadowMap;

            renderer.domElement.AttachToDocument();
            #endregion



            // this will mess up
            // three.OrbitControls.js
            // onMouseMove

            //new IStyle(renderer.domElement)
            //{
            //    position = IStyle.PositionEnum.absolute,
            //    left = "0px",
            //    top = "0px",
            //    right = "0px",
            //    bottom = "0px",
            //};


            //new { }.With(
            //    async delegate
            //    {

            //        await Native.window.async.onresize;

            //        // if the reload were fast, then we could actually do that:D
            //        Native.document.location.reload();

            //    }
            //);



            #region create field

            // THREE.PlaneGeometry: Consider using THREE.PlaneBufferGeometry for lower memory footprint.
            //var planeGeometry = new THREE.PlaneGeometry(1000, 1000);
            //var planeMaterial = new THREE.MeshLambertMaterial(
            //    new
            //    {
            //        map = THREE.ImageUtils.loadTexture(new HTML.Images.FromAssets.dirt_tx().src),
            //        color = 0xffffff
            //    }
            //);

            //planeMaterial.map.repeat.x = 300;
            //planeMaterial.map.repeat.y = 300;
            //planeMaterial.map.wrapS = THREE.RepeatWrapping;
            //planeMaterial.map.wrapT = THREE.RepeatWrapping;
            //var plane = new THREE.Mesh(planeGeometry, planeMaterial);
            //plane.castShadow = false;
            //plane.receiveShadow = true;


            //{

            //    var parent = new THREE.Object3D();
            //    parent.add(plane);
            //    parent.rotation.x = -Math.PI / 2;
            //    parent.scale.set(100, 100, 100);

            //    scene.add(parent);
            //}

            var random    = new Random();
            var meshArray = new List <THREE.Mesh>();
            //var geometry = new THREE.CubeGeometry(1, 1, 1);
            var geometry = new THREE.BoxGeometry(1, 1, 1);

            for (var i = 1; i < 100; i++)
            {
                var ii = new THREE.Mesh(geometry, new THREE.MeshLambertMaterial(
                                            new
                {
                    color = (Convert.ToInt32(0xffffff * random.NextDouble()))
                }));
                ii.position.x = i % 2 * 500 - 2.5f;

                // raise it up
                ii.position.y    = .5f * 100;
                ii.position.z    = -1 * i * 400;
                ii.castShadow    = true;
                ii.receiveShadow = true;
                //ii.scale.set(100, 100, 100 * i);
                ii.scale.set(100, 100 * i, 100);


                meshArray.Add(ii);

                scene.add(ii);
            }
            #endregion



            var blendMesh = new THREE.SpeedBlendCharacter();


            blendMesh.load(
                new Models.marine_anims().Content.src,
                new Action(
                    delegate
            {
                // buildScene

                //blendMesh.rotation.y = Math.PI * -135 / 180;
                blendMesh.castShadow = true;
                // we cannot scale down we want our shadows
                //blendMesh.scale.set(0.1, 0.1, 0.1);

                scene.add(blendMesh);

                //var characterController = new THREE.CharacterController(blendMesh);

                // run
                blendMesh.setSpeed(1.0);

                var radius = blendMesh.geometry.boundingSphere.radius;


                Native.document.title = new { radius }.ToString();


                var camera = new THREE.PerspectiveCamera(45, Native.window.aspect, 1, 20000);
                camera.position.set(0.0, radius * 3, radius * 3.5);

                var skyCamera = new THREE.PerspectiveCamera(45, Native.window.aspect, 1, 20000);
                skyCamera.position.set(0.0, radius * 3, radius * 3.5);

                var controls = new THREE.OrbitControls(camera);
                //controls.noPan = true;


                var loader = new THREE.JSONLoader();
                loader.load(new Models.ground().Content.src,
                            new Action <THREE.Geometry, THREE.Material[]>(

                                (xgeometry, materials) =>
                {
                    // cannot see the ground?
                    var ground = new THREE.Mesh(xgeometry, materials[0]);
                    ground.scale.set(20, 20, 20);
                    ground.receiveShadow = true;
                    ground.castShadow    = true;
                    scene.add(ground);
                }
                                )
                            );

                #region  createSky
                // gearvr has photos360 app
                var urls = new[] {
                    new px().src, new nx().src,
                    new py().src, new ny().src,
                    new pz().src, new nz().src,
                };

                var textureCube = THREE.ImageUtils.loadTextureCube(urls);

                dynamic shader = THREE.ShaderLib["cube"];
                shader.uniforms["tCube"].value = textureCube;

                // We're inside the box, so make sure to render the backsides
                // It will typically be rendered first in the scene and without depth so anything else will be drawn in front
                var material = new THREE.ShaderMaterial(new
                {
                    fragmentShader = shader.fragmentShader,
                    vertexShader   = shader.vertexShader,
                    uniforms       = shader.uniforms,
                    depthWrite     = false,
                    side           = THREE.BackSide
                });

                // THREE.CubeGeometry has been renamed to THREE.BoxGeometry
                // The box dimension size doesn't matter that much when the camera is in the center.  Experiment with the values.
                //var skyMesh = new THREE.Mesh(new THREE.CubeGeometry(10000, 10000, 10000, 1, 1, 1), material);
                var skyMesh = new THREE.Mesh(new THREE.BoxGeometry(10000, 10000, 10000), material);
                //skyMesh.renderDepth = -10;


                skyScene.add(skyMesh);
                #endregion

                #region onframe
                Native.window.onframe +=
                    delegate
                {
                    var scale    = 1.0;
                    var delta    = clock.getDelta();
                    var stepSize = delta * scale;

                    if (stepSize > 0)
                    {
                        //characterController.update(stepSize, scale);
                        //gui.setSpeed(blendMesh.speed);

                        THREE.AnimationHandler.update(stepSize);
                        blendMesh.updateSkeletonHelper();
                    }

                    controls.center.copy(blendMesh.position);
                    controls.center.y += radius * 2.0;
                    controls.update();

                    var camOffset = camera.position.clone().sub(controls.center);
                    camOffset.normalize().multiplyScalar(750);
                    camera.position = controls.center.clone().add(camOffset);

                    skyCamera.rotation.copy(camera.rotation);



                    renderer.clear();
                    renderer.render(skyScene, skyCamera);
                    renderer.render(scene, camera);
                };
                #endregion


                #region onresize
                new { }.With(
                    async delegate
                {
                    do
                    {
                        camera.aspect = Native.window.aspect;
                        camera.updateProjectionMatrix();
                        renderer.setSize(Native.window.Width, Native.window.Height);
                    } while (await Native.window.async.onresize);
                }
                    );
                #endregion
            }
                    )
                );
        }
        // http://youtu.be/Lo1IU8UAutE
        // 60hz 2160 4K!

        // The equirectangular projection was used in map creation since it was invented around 100 A.D. by Marinus of Tyre. 

        //        C:\Users\Arvo> "x:\util\android-sdk-windows\platform-tools\adb.exe" push "X:\vr\hzsky.png" "/sdcard/oculus/360photos/"
        //1533 KB/s(3865902 bytes in 2.461s)

        //C:\Users\Arvo> "x:\util\android-sdk-windows\platform-tools\adb.exe" push "X:\vr\hznosky.png" "/sdcard/oculus/360photos/"
        //1556 KB/s(2714294 bytes in 1.703s)

        //  "x:\util\android-sdk-windows\platform-tools\adb.exe" push "X:\vr\hz2048c3840x2160.png" "/sdcard/oculus/360photos/"

        // "X:\vr\tape360hzlights\0000.png"
        //  "x:\util\android-sdk-windows\platform-tools\adb.exe" push "r:\vr\tape360hzlights\0000.png" "/sdcard/oculus/360photos/hzlights.png"
        // 1421 KB/s (2516443 bytes in 1.729s)



        // https://sites.google.com/a/jsc-solutions.net/work/knowledge-base/15-dualvr/20150809/chrome360hz

        // https://sites.google.com/a/jsc-solutions.net/work/knowledge-base/15-dualvr/20150809

        // the eye nor the display will be able to do any stereo
        // until tech is near matrix capability. 2019?

        // cubemap can be used for all long range scenes
        // http://www.imdb.com/title/tt0112111/?ref_=nv_sr_1


        // https://sites.google.com/a/jsc-solutions.net/work/knowledge-base/15-dualvr/20150808/cubemapcamera
        // subst /D a:
        // subst a:  s:\jsc.svn\examples\javascript\chrome\apps\WebGL\Chrome360LightAnimation\Chrome360LightAnimation\bin\Debug\staging\Chrome360LightAnimation.Application\web
        // subst a: z:\jsc.svn\examples\javascript\chrome\apps\WebGL\Chrome360LightAnimation\Chrome360LightAnimation\bin\Debug\staging\Chrome360LightAnimation.Application\web
        // Z:\jsc.svn\examples\javascript\chrome\apps\WebGL\Chrome360LightAnimation\Chrome360LightAnimation\bin\Debug\staging\Chrome360LightAnimation.Application\web
        // what if we want to do subst in another winstat or session?

        // ColladaLoader: Empty or non-existing file (assets/Chrome360LightAnimation/S6Edge.dae)

        /// <summary>
        /// This is a javascript application.
        /// </summary>
        /// <param name="page">HTML document rendered by the web server which can now be enhanced.</param>
        public Application(IApp page)
        {
            //FormStyler.AtFormCreated =
            //s =>
            //{
            //    s.Context.FormBorderStyle = System.Windows.Forms.FormBorderStyle.None;

            //    //var x = new ChromeTCPServerWithFrameNone.HTML.Pages.AppWindowDrag().AttachTo(s.Context.GetHTMLTarget());
            //    var x = new ChromeTCPServerWithFrameNone.HTML.Pages.AppWindowDragWithShadow().AttachTo(s.Context.GetHTMLTarget());



            //    s.Context.GetHTMLTarget().style.backgroundColor = "#efefef";
            //    //s.Context.GetHTMLTarget().style.backgroundColor = "#A26D41";

            //};

#if AsWEBSERVER
            #region += Launched chrome.app.window
            // X:\jsc.svn\examples\javascript\chrome\apps\ChromeTCPServerAppWindow\ChromeTCPServerAppWindow\Application.cs
            dynamic self = Native.self;
            dynamic self_chrome = self.chrome;
            object self_chrome_socket = self_chrome.socket;

            if (self_chrome_socket != null)
            {
                // if we run as a server. we can open up on android.

                //chrome.Notification.DefaultTitle = "Nexus7";
                //chrome.Notification.DefaultIconUrl = new x128().src;
                ChromeTCPServer.TheServerWithStyledForm.Invoke(
                     AppSource.Text
                //, AtFormCreated: FormStyler.AtFormCreated

                //AtFormConstructor:
                //    f =>
                //    {
                //        //arg[0] is typeof System.Int32
                //        //script: error JSC1000: No implementation found for this native method, please implement [static System.Drawing.Color.FromArgb(System.Int32)]

                //        // X:\jsc.svn\examples\javascript\forms\Test\TestFromArgb\TestFromArgb\ApplicationControl.cs

                //        f.BackColor = System.Drawing.Color.FromArgb(0xA26D41);
                //    }
                );
                return;
            }
            #endregion
#else

            #region += Launched chrome.app.window
            dynamic self = Native.self;
            dynamic self_chrome = self.chrome;
            object self_chrome_socket = self_chrome.socket;

            if (self_chrome_socket != null)
            {
                if (!(Native.window.opener == null && Native.window.parent == Native.window.self))
                {
                    Console.WriteLine("chrome.app.window.create, is that you?");

                    // pass thru
                }
                else
                {
                    // should jsc send a copresence udp message?
                    //chrome.runtime.UpdateAvailable += delegate
                    //{
                    //    new chrome.Notification(title: "UpdateAvailable");

                    //};

                    chrome.app.runtime.Launched += async delegate
                    {
                        // 0:12094ms chrome.app.window.create {{ href = chrome-extension://aemlnmcokphbneegoefdckonejmknohh/_generated_background_page.html }}
                        Console.WriteLine("chrome.app.window.create " + new { Native.document.location.href });

                        new chrome.Notification(title: "Chrome360LightAnimation");

                        // https://developer.chrome.com/apps/app_window#type-CreateWindowOptions
                        var xappwindow = await chrome.app.window.create(
                               Native.document.location.pathname, options: new
                               {
                                   alwaysOnTop = true,
                                   visibleOnAllWorkspaces = true
                               }
                        );

                        //xappwindow.setAlwaysOnTop

                        xappwindow.show();

                        await xappwindow.contentWindow.async.onload;

                        Console.WriteLine("chrome.app.window loaded!");
                    };


                    return;
                }
            }
            #endregion


#endif



            //const int size = 128;
            //const int size = 256; // 6 faces, 12KB
            //const int size = 512; // 6 faces, ?

            // WebGL: drawArrays: texture bound to texture unit 0 is not renderable. It maybe non-power-of-2 and have incompatible texture filtering or is not 'texture complete'. Or the texture is Float or Half Float type with linear filtering while OES_float_linear or OES_half_float_linear extension is not enabled.

            //const int size = 720; // 6 faces, ?
            //const int size = 1024; // 6 faces, ?
            //const int cubefacesize = 1024; // 6 faces, ?

            // THREE.WebGLRenderer: Texture is not power of two. Texture.minFilter is set to THREE.LinearFilter or THREE.NearestFilter. ( chrome-extension://aemlnmcokphbneegoefdckonejmknohh/assets/Chrome360LightAnimation/anvil___spherical_hdri_panorama_skybox_by_macsix_d6vv4hs.jpg )
            int cubefacesize = 2048; // 6 faces, ?
                                     // "X:\vr\tape1\0000x2048.png"
                                     // for 60hz render we may want to use float camera percision, not available for ui.
                                     //  "x:\util\android-sdk-windows\platform-tools\adb.exe" push "X:\vr\tape1\0000x2048.png" "/sdcard/oculus/360photos/"
                                     //  "x:\util\android-sdk-windows\platform-tools\adb.exe" push "X:\vr\tape1\0000x128.png" "/sdcard/oculus/360photos/"

            //if (Environment.ProcessorCount < 8)
            //    //cubefacesize = 64; // 6 faces, ?
            //    cubefacesize = 128; // 6 faces, ?

            new IHTMLPre { new { Environment.ProcessorCount, cubefacesize } }.AttachToDocument();

            // can we keep fast fps yet highp?

            // can we choose this on runtime? designtime wants fast fps, yet for end product we want highdef on our render farm?
            //const int cubefacesize = 128; // 6 faces, ?

            //var cubecameraoffsetx = 256;
            var cubecameraoffsetx = 400;


            //var uizoom = 0.1;
            //var uizoom = cubefacesize / 128f;
            var uizoom = 128f / cubefacesize;

            var far = 0xffffff;

            Native.css.style.backgroundColor = "blue";
            Native.css.style.overflow = IStyle.OverflowEnum.hidden;

            Native.body.Clear();
            (Native.body.style as dynamic).webkitUserSelect = "text";

            //new IHTMLPre { "can we stream it into VR, shadertoy, youtube 360, youtube stereo yet?" }.AttachToDocument();


            var sw = Stopwatch.StartNew();



            var oo = new List<THREE.Object3D>();

            var window = Native.window;


            // what about physics and that portal rendering?

            // if we are running as a chrome web server, we may also be opened as android ndk webview app
            //var cameraPX = new THREE.PerspectiveCamera(fov: 90, aspect: window.aspect, near: 1, far: 2000);
            // once we update source
            // save the source
            // manually recompile 
            //cameraPX.position.z = 400;

            //// the camera should be close enough for the object to float off the FOV of PX
            //cameraPX.position.z = 200;

            // scene
            // can we make the 3D object orbit around us ?
            // and
            // stream it to vr?
            var scene = new THREE.Scene();

            // since our cube camera is somewhat a fixed thing
            // would it be easier to move mountains to come to us?
            // once we change code would chrome app be able to let VR know that a new view is available?
            var sceneg = new THREE.Group();
            sceneg.AttachTo(scene);


            // fly up?
            //sceneg.translateZ(-1024);
            // rotate the world, as the skybox then matches what we have on filesystem
            scene.rotateOnAxis(new THREE.Vector3(0, 1, 0), -Math.PI / 2);
            // yet for headtracking we shall rotate camera


            //sceneg.position.set(0, 0, -1024);
            //sceneg.position.set(0, -1024, 0);

            var ambient = new THREE.AmbientLight(0x303030).AttachTo(sceneg);
            //scene.add(ambient);

            // should we fix jsc to do a more correct IDL?
            //var directionalLight = new THREE.DirectionalLight(0xffffff, 0.7);
            //directionalLight.position.set(0, 0, 1);
            //scene.add(directionalLight);

            #region light
            //var light = new THREE.DirectionalLight(0xffffff, 1.0);
            var light = new THREE.DirectionalLight(0xffffff, 2.5);
            //var light = new THREE.DirectionalLight(0xffffff, 2.5);
            //var light = new THREE.DirectionalLight(0xffffff, 1.5);
            //var lightOffset = new THREE.Vector3(0, 1000, 2500.0);
            var lightOffset = new THREE.Vector3(
                2000,
                700,

                // lower makes longer shadows 
                700.0
                );
            light.position.copy(lightOffset);
            light.castShadow = true;

            var xlight = light as dynamic;
            xlight.shadowMapWidth = 4096;
            xlight.shadowMapHeight = 2048;

            xlight.shadowDarkness = 0.1;
            //xlight.shadowDarkness = 0.5;

            xlight.shadowCameraNear = 10;
            xlight.shadowCameraFar = 10000;
            xlight.shadowBias = 0.00001;
            xlight.shadowCameraRight = 4000;
            xlight.shadowCameraLeft = -4000;
            xlight.shadowCameraTop = 4000;
            xlight.shadowCameraBottom = -4000;

            // wont show if we add skybox?
            xlight.shadowCameraVisible = true;

            //scene.add(light);
            //light.AttachTo(sceneg);
            #endregion




            // whats WebGLRenderTargetCube do?

            // WebGLRenderer preserveDrawingBuffer 



            var renderer0 = new THREE.WebGLRenderer(

                new
                {
                    antialias = true,
                    alpha = true,
                    preserveDrawingBuffer = true
                }
            );


            // must enable shadows on the renderer 
            renderer0.shadowMapEnabled = true;

            // https://github.com/mrdoob/three.js/issues/3836

            // the construct. white bg
            //renderer0.setClearColor(0xfffff, 1);

            //renderer.setSize(window.Width, window.Height);
            renderer0.setSize(cubefacesize, cubefacesize);

            //renderer0.domElement.AttachToDocument();
            //rendererPX.domElement.style.SetLocation(0, 0);
            //renderer0.domElement.style.SetLocation(4, 4);


            // top

            // http://stackoverflow.com/questions/27612524/can-multiple-webglrenderers-render-the-same-scene


            // need a place to show the cubemap face to GUI 
            // how does the stereo OTOY do it?
            // https://www.opengl.org/wiki/Sampler_(GLSL)

            // http://www.richardssoftware.net/Home/Post/25

            // [+X, –X, +Y, –Y, +Z, –Z] fa



            // move up
            //camera.position.set(-1200, 800, 1200);
            //var cameraoffset = new THREE.Vector3(0, 15, 0);

            // can we aniamte it?
            //var cameraoffset = new THREE.Vector3(0, 800, 1200);
            // can we have linear animation fromcenter of the map to the edge and back?
            // then do the flat earth sun orbit?
            var cameraoffset = new THREE.Vector3(
                // left?
                -512,
                // height?
                //0,
                //1600,
                //1024,

                // if the camera is in the center, would we need to move the scene?
                // we have to move the camera. as we move the scene the lights are messed up
                //2014,
                1024,

                //1200
                0
                // can we hover top of the map?
                );

            // original vieworigin
            //var cameraoffset = new THREE.Vector3(-1200, 800, 1200);



            var camerax = new IHTMLInput { type = ScriptCoreLib.Shared.HTMLInputTypeEnum.range, min = 0 - 2048, max = 0 + 2048, valueAsNumber = -512, title = "camerax" }.AttachToDocument();
            // up. whats the most high a rocket can go 120km?
            new IHTMLHorizontalRule { }.AttachToDocument();


            // how high is the bunker?
            var cameray = new IHTMLInput { type = ScriptCoreLib.Shared.HTMLInputTypeEnum.range, min = 64, max = 2048, valueAsNumber = 1024, title = "cameray" }.AttachToDocument();
            new IHTMLBreak { }.AttachToDocument();
            var camerayHigh = new IHTMLInput { type = ScriptCoreLib.Shared.HTMLInputTypeEnum.range, min = cameray.max, max = 1024 * 256, valueAsNumber = cameray.max, title = "cameray" }.AttachToDocument();
            new IHTMLHorizontalRule { }.AttachToDocument();
            var cameraz = new IHTMLInput { type = ScriptCoreLib.Shared.HTMLInputTypeEnum.range, min = 0 - 2048, max = 0 + 2048, valueAsNumber = 0, title = "cameraz" }.AttachToDocument();

            // for render server
            var fcamerax = 0.0;
            var fcameray = 0.0;
            var fcameraz = 0.0;

            //while (await camerax.async.onchange)

            //cameray.onchange += delegate
            //{
            //    if (cameray.valueAsNumber < cameray.max)
            //        camerayHigh.valueAsNumber = camerayHigh.min;
            //};

            camerayHigh.onmousedown += delegate
            {
                //if (camerayHigh.valueAsNumber > camerayHigh.min)
                cameray.valueAsNumber = cameray.max;
            };


            Action applycameraoffset = delegate
            {
                // make sure UI and gpu sync up

                var cy = cameray;

                if (cameray.valueAsNumber < cameray.max)
                    camerayHigh.valueAsNumber = camerayHigh.min;

                if (camerayHigh.valueAsNumber > camerayHigh.min)
                    cameray.valueAsNumber = cameray.max;

                if (cameray.valueAsNumber == cameray.max)
                    cy = camerayHigh;



                cameraoffset = new THREE.Vector3(
                  // left?
                  camerax + fcamerax,
                   // height?
                   //0,
                   //1600,
                   //1024,

                   // if the camera is in the center, would we need to move the scene?
                   // we have to move the camera. as we move the scene the lights are messed up
                   //2014,
                   cy + fcameray,

                   //1200
                   cameraz + fcameraz
                   // can we hover top of the map?
                   );
            };


            #region y
            // need to rotate90?
            var cameraNY = new THREE.PerspectiveCamera(fov: 90, aspect: 1.0, near: 1, far: far);
            applycameraoffset += delegate
            {
                cameraNY.position.copy(new THREE.Vector3(0, 0, 0));
                cameraNY.lookAt(new THREE.Vector3(0, -1, 0));
                cameraNY.position.add(cameraoffset);
            };

            //cameraNY.lookAt(new THREE.Vector3(0, 1, 0));
            var canvasNY = new CanvasRenderingContext2D(cubefacesize, cubefacesize);
            canvasNY.canvas.style.SetLocation(cubecameraoffsetx + (int)(uizoom * cubefacesize + 8) * 1, 8 + (int)(uizoom * cubefacesize + 8) * 2);
            canvasNY.canvas.title = "NY";
            canvasNY.canvas.AttachToDocument();
            canvasNY.canvas.style.transformOrigin = "0 0";
            canvasNY.canvas.style.transform = $"scale({uizoom})";

            var cameraPY = new THREE.PerspectiveCamera(fov: 90, aspect: 1.0, near: 1, far: far);
            applycameraoffset += delegate
            {
                cameraPY.position.copy(new THREE.Vector3(0, 0, 0));
                cameraPY.lookAt(new THREE.Vector3(0, 1, 0));
                cameraPY.position.add(cameraoffset);
            };
            //cameraPY.lookAt(new THREE.Vector3(0, -1, 0));
            var canvasPY = new CanvasRenderingContext2D(cubefacesize, cubefacesize);
            canvasPY.canvas.style.SetLocation(cubecameraoffsetx + (int)(uizoom * cubefacesize + 8) * 1, 8 + (int)(uizoom * cubefacesize + 8) * 0);
            canvasPY.canvas.title = "PY";
            canvasPY.canvas.AttachToDocument();
            canvasPY.canvas.style.transformOrigin = "0 0";
            canvasPY.canvas.style.transform = $"scale({uizoom})";
            #endregion

            // transpose xz?

            #region x
            var cameraNX = new THREE.PerspectiveCamera(fov: 90, aspect: 1.0, near: 1, far: far);
            applycameraoffset += delegate
            {
                cameraNX.position.copy(new THREE.Vector3(0, 0, 0));
                cameraNX.lookAt(new THREE.Vector3(0, 0, 1));
                cameraNX.position.add(cameraoffset);
            };
            //cameraNX.lookAt(new THREE.Vector3(0, 0, -1));
            //cameraNX.lookAt(new THREE.Vector3(-1, 0, 0));
            //cameraNX.lookAt(new THREE.Vector3(1, 0, 0));
            var canvasNX = new CanvasRenderingContext2D(cubefacesize, cubefacesize);
            canvasNX.canvas.style.SetLocation(cubecameraoffsetx + (int)(uizoom * cubefacesize + 8) * 2, 8 + (int)(uizoom * cubefacesize + 8) * 1);
            canvasNX.canvas.title = "NX";
            canvasNX.canvas.AttachToDocument();
            canvasNX.canvas.style.transformOrigin = "0 0";
            canvasNX.canvas.style.transform = $"scale({uizoom})";

            var cameraPX = new THREE.PerspectiveCamera(fov: 90, aspect: 1.0, near: 1, far: far);
            applycameraoffset += delegate
            {
                cameraPX.position.copy(new THREE.Vector3(0, 0, 0));
                cameraPX.lookAt(new THREE.Vector3(0, 0, -1));
                cameraPX.position.add(cameraoffset);
            };
            //cameraPX.lookAt(new THREE.Vector3(0, 0, 1));
            //cameraPX.lookAt(new THREE.Vector3(1, 0, 0));
            //cameraPX.lookAt(new THREE.Vector3(-1, 0, 0));
            var canvasPX = new CanvasRenderingContext2D(cubefacesize, cubefacesize);
            canvasPX.canvas.style.SetLocation(cubecameraoffsetx + (int)(uizoom * cubefacesize + 8) * 0, 8 + (int)(uizoom * cubefacesize + 8) * 1);
            canvasPX.canvas.title = "PX";
            canvasPX.canvas.AttachToDocument();
            canvasPX.canvas.style.transformOrigin = "0 0";
            canvasPX.canvas.style.transform = $"scale({uizoom})";
            #endregion



            #region z
            var cameraNZ = new THREE.PerspectiveCamera(fov: 90, aspect: 1.0, near: 1, far: far);
            //cameraNZ.lookAt(new THREE.Vector3(0, 0, -1));
            applycameraoffset += delegate
            {
                cameraNZ.position.copy(new THREE.Vector3(0, 0, 0));
                cameraNZ.lookAt(new THREE.Vector3(1, 0, 0));
                cameraNZ.position.add(cameraoffset);
            };
            //cameraNX.lookAt(new THREE.Vector3(-1, 0, 0));
            //cameraNZ.lookAt(new THREE.Vector3(0, 0, 1));
            var canvasNZ = new CanvasRenderingContext2D(cubefacesize, cubefacesize);
            canvasNZ.canvas.style.SetLocation(cubecameraoffsetx + (int)(uizoom * cubefacesize + 8) * 3, 8 + (int)(uizoom * cubefacesize + 8) * 1);
            canvasNZ.canvas.title = "NZ";
            canvasNZ.canvas.AttachToDocument();
            canvasNZ.canvas.style.transformOrigin = "0 0";
            canvasNZ.canvas.style.transform = $"scale({uizoom})";

            var cameraPZ = new THREE.PerspectiveCamera(fov: 90, aspect: 1.0, near: 1, far: far);
            //cameraPZ.lookAt(new THREE.Vector3(1, 0, 0));
            applycameraoffset += delegate
            {
                cameraPZ.position.copy(new THREE.Vector3(0, 0, 0));
                cameraPZ.lookAt(new THREE.Vector3(-1, 0, 0));
                cameraPZ.position.add(cameraoffset);
            };
            //cameraPZ.lookAt(new THREE.Vector3(0, 0, 1));
            //cameraPZ.lookAt(new THREE.Vector3(0, 0, -1));
            var canvasPZ = new CanvasRenderingContext2D(cubefacesize, cubefacesize);
            canvasPZ.canvas.style.SetLocation(cubecameraoffsetx + (int)(uizoom * cubefacesize + 8) * 1, 8 + (int)(uizoom * cubefacesize + 8) * 1);
            canvasPZ.canvas.title = "PZ";
            canvasPZ.canvas.AttachToDocument();
            canvasPZ.canvas.style.transformOrigin = "0 0";
            canvasPZ.canvas.style.transform = $"scale({uizoom})";
            #endregion




            // c++ alias locals would be nice..
            var canvas0 = (IHTMLCanvas)renderer0.domElement;


            var old = new
            {



                CursorX = 0,
                CursorY = 0
            };


            var st = new Stopwatch();
            st.Start();

            //canvas0.css.active.style.cursor = IStyle.CursorEnum.move;

            #region onmousedown
            Native.body.onmousedown +=
                async e =>
                {
                    if (e.Element.nodeName.ToLower() != "canvas")
                        return;

                    // movementX no longer works
                    old = new
                    {


                        e.CursorX,
                        e.CursorY
                    };


                    //e.CaptureMouse();
                    var release = e.Element.CaptureMouse();
                    await e.Element.async.onmouseup;

                    release();


                };
            #endregion



            // X:\jsc.svn\examples\javascript\Test\TestMouseMovement\TestMouseMovement\Application.cs
            #region onmousemove
            Native.body.onmousemove +=
                e =>
                {
                    if (e.Element.nodeName.ToLower() != "canvas")
                    {
                        Native.body.style.cursor = IStyle.CursorEnum.@default;
                        return;
                    }

                    e.preventDefault();
                    e.stopPropagation();


                    Native.body.style.cursor = IStyle.CursorEnum.move;

                    var pointerLock = canvas0 == Native.document.pointerLockElement;


                    //Console.WriteLine(new { e.MouseButton, pointerLock, e.movementX });

                    if (e.MouseButton == IEvent.MouseButtonEnum.Left)
                    {

                        oo.WithEach(
                            x =>
                            {
                                x.rotation.y += 0.006 * (e.CursorX - old.CursorX);
                                x.rotation.x += 0.006 * (e.CursorY - old.CursorY);
                            }
                        );

                        old = new
                        {


                            e.CursorX,
                            e.CursorY
                        };



                    }

                };
            #endregion

            // THREE.WebGLProgram: gl.getProgramInfoLog() C:\fakepath(78,3-98): warning X3557: loop only executes for 1 iteration(s), forcing loop to unroll
            // THREE.WebGLProgram: gl.getProgramInfoLog() (79,3-98): warning X3557: loop only executes for 1 iteration(s), forcing loop to unroll

            // http://www.roadtovr.com/youtube-confirms-stereo-3d-360-video-support-coming-soon/
            // https://www.youtube.com/watch?v=D-Wl9jAB45Q



            #region spherical
            var gl = new WebGLRenderingContext(alpha: true, preserveDrawingBuffer: true);
            var c = gl.canvas.AttachToDocument();

            //  3840x2160

            //c.style.SetSize(3840, 2160);

            // https://sites.google.com/a/jsc-solutions.net/work/knowledge-base/15-dualvr/20150722/360-youtube


            c.width = 3840;
            c.height = 2160;


            //c.width = 3840 * 2;
            //c.height = 2160 * 2;


            //c.width = 3840;
            //c.height = 2160;
            // 1,777777777777778

            // https://www.youtube.com/watch?v=fTfJwzRsE-w
            //c.width = 7580;
            //c.height = 3840;
            //1,973958333333333

            //7580
            //    3840

            // wont work
            //c.width = 8192;
            //c.height = 4096;


            // this has the wrong aspect?
            //c.width = 6466;
            //c.height = 3232;

            new IHTMLPre { new { c.width, c.height } }.AttachToDocument();

            //6466x3232

            //var suizoom = 720f / c.height;
            //var suizoom = 360f / c.height;
            var suizoom = 480f / c.width;

            c.style.transformOrigin = "0 0";
            c.style.transform = $"scale({suizoom})";
            //c.style.backgroundColor = "yellow";
            c.style.position = IStyle.PositionEnum.absolute;

            c.style.SetLocation(8 + (int)(uizoom * cubefacesize + 8) * 0, 8 + (int)(uizoom * cubefacesize + 8) * 3);

            var pass = new CubeToEquirectangular.Library.ShaderToy.EffectPass(
                       null,
                       gl,
                       precission: CubeToEquirectangular.Library.ShaderToy.DetermineShaderPrecission(gl),
                       supportDerivatives: gl.getExtension("OES_standard_derivatives") != null,
                       callback: null,
                       obj: null,
                       forceMuted: false,
                       forcePaused: false,
                       //quadVBO: Library.ShaderToy.createQuadVBO(gl, right: 0, top: 0),
                       outputGainNode: null
                   );

            // how shall we upload our textures?
            // can we reference GLSL.samplerCube yet?
            //pass.mInputs[0] = new samplerCube { };
            pass.mInputs[0] = new CubeToEquirectangular.Library.ShaderToy.samplerCube { };

            pass.MakeHeader_Image();
            var vs = new Shaders.ProgramFragmentShader();
            pass.NewShader_Image(vs);

            #endregion




            var frame0 = new HTML.Images.FromAssets.galaxy_starfield().AttachToDocument();
            //var frame0 = new HTML.Images.FromAssets.tiles_regrid().AttachToDocument();
            //var frame0 = new HTML.Images.FromAssets.anvil___spherical_hdri_panorama_skybox_by_macsix_d6vv4hs().AttachToDocument();
            //var xor = new HTML.Images.FromAssets.Orion360_test_image_8192x4096().AttachToDocument();
            //var xor = new HTML.Images.FromAssets._2_no_clouds_4k().AttachToDocument();
            //var frame0 = new HTML.Images.FromAssets._2294472375_24a3b8ef46_o().AttachToDocument();


            // 270px
            //xor.style.height = "";
            frame0.style.height = "270px";
            frame0.style.width = "480px";
            frame0.style.SetLocation(
                8 + (int)(uizoom * cubefacesize + 8) * 0 + 480 + 16, 8 + (int)(uizoom * cubefacesize + 8) * 3);



            #region  skybox
            // what shall the skybox do if we reach upper altitude?
            // fade into space skybox ?
            var skybox = new THREE.Mesh(new THREE.SphereGeometry(far * 0.9, 50, 50),
           new THREE.MeshBasicMaterial(new
           {
               map = THREE.ImageUtils.loadTexture(
                  //new HTML.Images.FromAssets._2294472375_24a3b8ef46_o().src
                  //new HTML.Images.FromAssets._4008650304_7f837ccbb7_b().src
                  frame0.src
                   //new WebGLEquirectangularPanorama.HTML.Images.FromAssets.PANO_20130616_222058().src
                   //new WebGLEquirectangularPanorama.HTML.Images.FromAssets.PANO_20121225_210448().src

                   )
           }));
            skybox.scale.x = -1;
            skybox.AttachTo(sceneg);
            #endregion



            //mesh.rotateOnAxis(new THREE.Vector3(1, 0, 0), Math.PI / 2);
            //mesh.rotateOnAxis(new THREE.Vector3(1, 0, 0), -Math.PI / 2);

            // dont need the fixup. unless we want to animate the sky rotate?
            //mesh.rotateOnAxis(new THREE.Vector3(0, 1, 0), -Math.PI / 2);


            // hide the sky to see camera lines?
            //  can we show this as HUD on VR in webview?
            //skybox.visible = false;
            //scene.add(skybox);




            //new IHTMLButton { }

            #region DirectoryEntry
            var dir = default(DirectoryEntry);

            new IHTMLButton { "openDirectory" }.AttachToDocument().onclick += async delegate
            {
                dir = (DirectoryEntry)await chrome.fileSystem.chooseEntry(new { type = "openDirectory" });
            };

            frame0.onclick += delegate
            {
                // http://paulbourke.net/papers/vsmm2006/vsmm2006.pdf
                //            A method of creating synthetic stereoscopic panoramic images that can be implemented
                //in most rendering packages has been presented. If single panoramic pairs can be created
                //then stereoscopic panoramic movies are equally possible giving rise to the prospect of
                //movies where the viewer can interact with, at least with regard to what they choose to look
                //at.These images can be projected so as to engage the two features of the human visual
                //system that assist is giving us a sense of immersion, the feeling of “being there”. That is,
                //imagery that contains parallax information as captured from two horizontally separated eye
                //positions (stereopsis)and imagery that fills our peripheral vision.The details that define
                //how the two panoramic images should be created in rendering packages are provided, in
                //particular, how to precisely configure the virtual cameras and control the distance to zero
                //parallax.

                // grab a frame

                if (dir == null)
                {
                    // not exporting to file system?
                    var f0 = new IHTMLImage { src = gl.canvas.toDataURL() };

                    //var f0 = (IHTMLImage)gl.canvas;
                    //var f0 = (IHTMLImage)gl.canvas;
                    //var base64 = gl.canvas.toDataURL();


                    //frame0.src = base64;
                    frame0.src = f0.src;

                    // 7MB!

                    return;
                }

                //                // ---------------------------
                //IrfanView
                //---------------------------
                //Warning !
                //The file: "X:\vr\tape1\0001.jpg" is a PNG file with incorrect extension !
                //Rename ?
                //---------------------------
                //Yes   No   
                //---------------------------

                // haha this will render the thumbnail.
                //dir.WriteAllBytes("0000.png", frame0);

                //dir.WriteAllBytes("0000.png", gl.canvas);

                var glsw = Stopwatch.StartNew();
                dir.WriteAllBytes("0000.png", gl);

                new IHTMLPre { new { glsw.ElapsedMilliseconds } }.AttachToDocument();

                // {{ ElapsedMilliseconds = 1548 }}

                // 3.7MB
                // 3840x2160

            };

            #endregion

            var vsync = default(TaskCompletionSource<object>);

            new IHTMLButton {
                "render 60hz 30sec"
            }.AttachToDocument().onclick += async e =>
            {
                e.Element.disabled = true;


                var total = Stopwatch.StartNew();
                var status = "rendering... " + new { dir };

                new IHTMLPre { () => status }.AttachToDocument();

                if (dir == null)
                {
                    //dir = (DirectoryEntry)await chrome.fileSystem.chooseEntry(new { type = "openDirectory" });
                }

                total.Restart();



                vsync = new TaskCompletionSource<object>();
                await vsync.Task;

                status = "rendering... vsync";

                var frameid = -1;

                goto beforeframe;
                //fcamerax = -15.0;

                // parallax offset?

                await_nextframe:


                var filename = frameid.ToString().PadLeft(4, '0') + ".png";
                status = "rendering... " + new { frameid, filename };


                vsync = new TaskCompletionSource<object>();
                await vsync.Task;

                // frame0 has been rendered

                var swcapture = Stopwatch.StartNew();
                status = "WriteAllBytes... " + new { filename };
                //await Native.window.async.onframe;

                if (dir != null)
                    // https://code.google.com/p/chromium/issues/detail?id=404301
                    await dir.WriteAllBytes(filename, gl);

                //await dir.WriteAllBytes(filename, gl.canvas);

                status = "WriteAllBytes... done " + new { fcamerax, filename, swcapture.ElapsedMilliseconds };
                status = "rdy " + new { filename, fcamerax };
                //await Native.window.async.onframe;



                beforeframe:

                // speed? S6 slow motion?
                // this is really slow. if we do x4x2 =x8 
                // https://www.youtube.com/watch?v=r76ULW16Ib8
                //fcamerax += 16 * (1.0 / 60.0);
                fcamerax = 128 * Math.Sin(Math.PI * (frameid - (60 * 30 / 2f)) / (60 * 30 / 2f));
                fcameraz = 256 * Math.Cos(Math.PI * (frameid - (60 * 30 / 2f)) / (60 * 30 / 2f));


                // up
                fcameray = 16 * Math.Cos(Math.PI * (frameid - (60 * 30 / 2f)) / (60 * 30 / 2f));

                //fcamerax += (1.0 / 60.0);

                //fcamerax += (1.0 / 60.0) * 120;

                if (Environment.ProcessorCount < 8)
                    frameid += 30;
                else
                    frameid++;

                // 60hz 30sec
                if (frameid < 60 * 30)
                {
                    // Blob GC? either this helms or the that we made a Blob static. 
                    await Task.Delay(11);

                    goto await_nextframe;
                }

                total.Stop();
                status = "all done " + new { frameid, total.ElapsedMilliseconds };
                vsync = default(TaskCompletionSource<object>);
                // http://stackoverflow.com/questions/22899333/delete-javascript-blobs

                e.Element.disabled = false;
            };

            // "Z:\jsc.svn\examples\javascript\WebGL\WebGLColladaExperiment\WebGLColladaExperiment\WebGLColladaExperiment.csproj"

            #region WebGLRah66Comanche
            // why isnt it being found?
            // "Z:\jsc.svn\examples\javascript\WebGL\collada\WebGLRah66Comanche\WebGLRah66Comanche\WebGLRah66Comanche.csproj"
            new global::WebGLRah66Comanche.Comanche(
            ).Source.Task.ContinueWithResult(
                dae =>
                {
                    dae.AttachTo(sceneg);
                    //dae.position.y = -40;
                    //dae.position.z = 280;
                    //scene.add(dae);
                    //oo.Add(dae);

                    // wont do it
                    //dae.castShadow = true;

                    dae.children[0].children[0].children.WithEach(x => x.castShadow = true);


                    // the rotors?
                    dae.children[0].children[0].children.Last().children.WithEach(x => x.castShadow = true);


                    dae.scale.set(0.5, 0.5, 0.5);
                    dae.position.x = -900;
                    dae.position.z = +900;

                    // raise it up
                    dae.position.y = 400;

                    //var sw = Stopwatch.StartNew();

                    //Native.window.onframe += delegate
                    //{
                    //    //dae.children[0].children[0].children.Last().al
                    //    //dae.children[0].children[0].children.Last().rotation.z = sw.ElapsedMilliseconds * 0.01;
                    //    //dae.children[0].children[0].children.Last().rotation.x = sw.ElapsedMilliseconds * 0.01;
                    //    dae.children[0].children[0].children.Last().rotation.y = sw.ElapsedMilliseconds * 0.01;
                    //};
                }
            );
            #endregion



            #region tree
            // "Z:\jsc.svn\examples\javascript\WebGL\WebGLGodRay\WebGLGodRay\WebGLGodRay.csproj"

            var materialScene = new THREE.MeshBasicMaterial(new { color = 0x000000, shading = THREE.FlatShading });
            var tloader = new THREE.JSONLoader();

            // http://stackoverflow.com/questions/16539736/do-not-use-system-runtime-compilerservices-dynamicattribute-use-the-dynamic
            // https://msdn.microsoft.com/en-us/library/system.runtime.compilerservices.dynamicattribute%28v=vs.110%29.aspx
            //System.Runtime.CompilerServices.DynamicAttribute

            tloader.load(

                new WebGLGodRay.Models.tree().Content.src,

                new Action<THREE.Geometry>(
                xgeometry =>
                {

                    var treeMesh = new THREE.Mesh(xgeometry, materialScene);
                    treeMesh.position.set(0, -150, -150);
                    treeMesh.position.x = -900;
                    treeMesh.position.z = -900;

                    treeMesh.position.y = 25;

                    var tsc = 400;
                    treeMesh.scale.set(tsc, tsc, tsc);

                    treeMesh.matrixAutoUpdate = false;
                    treeMesh.updateMatrix();


                    //treeMesh.AttachTo(scene);
                    treeMesh.AttachTo(sceneg);

                }
                )
                );
            #endregion


            // http://learningthreejs.com/blog/2013/09/16/how-to-make-the-earth-in-webgl/

            #region create floor

            // THREE.PlaneGeometry: Consider using THREE.PlaneBufferGeometry for lower memory footprint.
            // can we have our checkerboard?

            var floorColors = new[] {
                0xA26D41,
                0xA06040,
                0xAF6F4F,
                // marker to detect horizon
                0xAF0000,



                0xA26D41,
                0xA06040,
                0xAF6F4F,
                // marker to detect horizon
                0x006D00,



                0xA26D41,
                0xA06040,
                0xAF6F4F,
                // marker to detect horizon
                0x0000FF
            };


            // human eye can see up to 10miles, then horizion flattens out.
            var planeGeometry = new THREE.CubeGeometry(2048, 1, 2048);
            var planeGeometryMarkerH = new THREE.CubeGeometry(2048, 1, 2048 * 5);


            var planeGeometryMarkerV = new THREE.CubeGeometry(2048 * 5 * 4, 1, 2048 * 4);
            var planeGeometryV = new THREE.CubeGeometry(2048 * 4, 1, 2048 * 4);
            ////var floor0 = new THREE.Mesh(planeGeometry,
            ////        new THREE.MeshPhongMaterial(new { ambient = 0x101010, color = 0xA26D41, specular = 0xA26D41, shininess = 1 })

            ////    );
            //////plane.castShadow = false;
            ////floor0.receiveShadow = true;
            ////floor0.AttachTo(sceneg);

            ////var floor1 = new THREE.Mesh(planeGeometry,
            ////       //new THREE.MeshPhongMaterial(new { ambient = 0x101010, color = 0xA26D41, specular = 0xA26D41, shininess = 1 })
            ////       new THREE.MeshPhongMaterial(new { ambient = 0x101010, color = 0xA06040, specular = 0xA26D41, shininess = 1 })

            ////   );
            //////plane.castShadow = false;
            ////floor1.receiveShadow = true;
            ////floor1.position.set(2048, 0, 1024);
            ////floor1.AttachTo(sceneg);

            // can we see horizon?
            for (int i = 0; i < 3 * 256; i++)
            {
                var planeGeometry0 = planeGeometry;

                if (i % 4 == 3)
                {
                    planeGeometry0 = planeGeometryMarkerH;

                    // for high altitude zoom level

                    var i4 = (i / 4);


                    var planeGeometryV0 = planeGeometryV;

                    if (i4 % 4 == 3)
                        planeGeometryV0 = planeGeometryMarkerV;

                    {
                        var floor2 = new THREE.Mesh(planeGeometryV0,
                            //new THREE.MeshPhongMaterial(new { ambient = 0x101010, color = 0xA26D41, specular = 0xA26D41, shininess = 1 })
                            new THREE.MeshPhongMaterial(new { ambient = 0x101010, color = floorColors[i4 % floorColors.Length], specular = 0xA26D41, shininess = 1 })

                        );
                        //plane.castShadow = false;
                        floor2.receiveShadow = true;
                        floor2.position.set(1024 * -i, 0, 2048 * i);
                        floor2.AttachTo(scene);
                    }


                    {
                        var floor2 = new THREE.Mesh(planeGeometryV0,
                            //new THREE.MeshPhongMaterial(new { ambient = 0x101010, color = 0xA26D41, specular = 0xA26D41, shininess = 1 })
                            new THREE.MeshPhongMaterial(new { ambient = 0x101010, color = floorColors[(i / 4) % floorColors.Length], specular = 0xA26D41, shininess = 1 })

                        );
                        //plane.castShadow = false;
                        floor2.receiveShadow = true;
                        floor2.position.set(-1024 * -i, 0, -2048 * i);
                        floor2.AttachTo(scene);
                    }
                }

                {
                    var floor2 = new THREE.Mesh(planeGeometry0,
                        //new THREE.MeshPhongMaterial(new { ambient = 0x101010, color = 0xA26D41, specular = 0xA26D41, shininess = 1 })
                        new THREE.MeshPhongMaterial(new { ambient = 0x101010, color = floorColors[i % floorColors.Length], specular = 0xA26D41, shininess = 1 })

                    );
                    //plane.castShadow = false;
                    floor2.receiveShadow = true;
                    floor2.position.set(2048 * i, 0, 1024 * i);
                    floor2.AttachTo(scene);
                }

                // flipz
                {
                    var floor2 = new THREE.Mesh(planeGeometry0,
                        //new THREE.MeshPhongMaterial(new { ambient = 0x101010, color = 0xA26D41, specular = 0xA26D41, shininess = 1 })
                        new THREE.MeshPhongMaterial(new { ambient = 0x101010, color = floorColors[i % floorColors.Length], specular = 0xA26D41, shininess = 1 })

                    );
                    //plane.castShadow = false;
                    floor2.receiveShadow = true;
                    floor2.position.set(2048 * -i, 0, 1024 * -i);
                    floor2.AttachTo(scene);
                }
            }

            #endregion



            // "shadow cameras" show the light source and direction

            // spotlight #1 -- yellow, dark shadow
            var spotlight = new THREE.SpotLight(0xffff00);
            spotlight.position.set(-60, 150, -30);
            //spotlight.shadowCameraVisible = true;
            spotlight.shadowDarkness = 0.95;
            spotlight.intensity = 2;
            // must enable shadow casting ability for the light
            spotlight.castShadow = true;
            scene.add(spotlight);

            // spotlight #2 -- red, light shadow
            var spotlight2 = new THREE.SpotLight(0xff0000);
            //var spotlight2 = new THREE.SpotLight(0xffff00);
            spotlight2.position.set(60, 150, -60);
            scene.add(spotlight2);
            //spotlight2.shadowCameraVisible = true;
            spotlight2.shadowDarkness = 0.70;
            spotlight2.intensity = 2;
            spotlight2.castShadow = true;


            // THREE.WebGLProgram: gl.getProgramInfoLog() Pixel shader sampler count exceeds MAX_TEXTURE_IMAGE_UNITS (16).
            for (int i = 0; i < 8; i++)
            {

                // spotlight #3 blue
                var spotlight3 = new THREE.SpotLight(0x0000ff);
                //var spotlight3 = new THREE.SpotLight(0x00ffff);
                spotlight3.position.set(150 * i, 80, -100);
                //spotlight3.shadowCameraVisible = true;
                spotlight3.shadowDarkness = 0.95;
                spotlight3.intensity = 2;
                spotlight3.castShadow = true;
                scene.add(spotlight3);
                // change the direction this spotlight is facing
                var lightTarget = new THREE.Object3D();
                lightTarget.position.set(150 * i, 10, -100);
                scene.add(lightTarget);
                spotlight3.target = lightTarget;



            }





            // cube: mesh to cast shadows
            #region castShadow
            var cubeGeometry = new THREE.CubeGeometry(50, 50, 50);
            var cubeMaterial = new THREE.MeshLambertMaterial(new { color = 0x888888 });

            var cube0 = new THREE.Mesh(cubeGeometry, cubeMaterial);
            //cube.position.set(0, 50, 0);
            cube0.position.set(0, 100, 0);
            // Note that the mesh is flagged to cast shadows
            cube0.castShadow = true;
            scene.add(cube0);

            // floor: mesh to receive shadows

            #endregion






            #region create walls

            var random = new Random();
            var meshArray = new List<THREE.Mesh>();
            var geometry = new THREE.CubeGeometry(1, 1, 1);
            //var sw = Stopwatch.StartNew();

            for (var i = 3; i < 9; i++)
            {

                //THREE.MeshPhongMaterial
                var ii = new THREE.Mesh(geometry,


                    new THREE.MeshPhongMaterial(new { ambient = 0x000000, color = 0xA06040, specular = 0xA26D41, shininess = 1 })

                    //new THREE.MeshLambertMaterial(
                    //new
                    //{
                    //    color = (Convert.ToInt32(0xffffff * random.NextDouble())),
                    //    specular = 0xffaaaa,
                    //    ambient= 0x050505, 
                    //})

                    );
                ii.position.x = i % 7 * 200 - 2.5f;

                // raise it up
                ii.position.y = .5f * 100 * i;
                ii.position.z = -1 * i * 100;

                ii.castShadow = true;
                ii.receiveShadow = true;
                //ii.scale.set(100, 100, 100 * i);
                ii.scale.set(100, 100 * i, 100);


                meshArray.Add(ii);

                //scene.add(ii);
                ii.AttachTo(sceneg);

                if (i % 2 == 0)
                {

                    // Z:\jsc.svn\examples\javascript\WebGL\WebGLHZBlendCharacter\WebGLHZBlendCharacter\Application.cs
#if FWebGLHZBlendCharacter
                    #region SpeedBlendCharacter
                    var _i = i;
                    { WebGLHZBlendCharacter.HTML.Pages.TexturesImages ref0; }

                    var blendMesh = new THREE.SpeedBlendCharacter();
                    blendMesh.load(
                        new WebGLHZBlendCharacter.Models.marine_anims().Content.src,
                        new Action(
                            delegate
                            {
                                // buildScene
                                //blendMesh.rotation.y = Math.PI * -135 / 180;
                                blendMesh.castShadow = true;
                                // we cannot scale down we want our shadows
                                //blendMesh.scale.set(0.1, 0.1, 0.1);

                                blendMesh.position.x = (_i + 2) % 7 * 200 - 2.5f;

                                // raise it up
                                //blendMesh.position.y = .5f * 100;
                                blendMesh.position.z = -1 * _i * 100;


                                var xtrue = true;
                                // run
                                blendMesh.setSpeed(1.0);

                                // will in turn call THREE.AnimationHandler.play( this );
                                blendMesh.run.play();
                                // this wont help. bokah does not see the animation it seems.
                                blendMesh.run.update(1);

                                blendMesh.showSkeleton(!xtrue);

                                //scene.add(blendMesh);
                                blendMesh.AttachTo(sceneg);


                                //Native.window.onframe +=
                                // delegate
                                // {

                                //     blendMesh.rotation.y = Math.PI * 0.0002 * sw.ElapsedMilliseconds;



                                //     ii.rotation.y = Math.PI * 0.0002 * sw.ElapsedMilliseconds;

                                // };

                            }
                        )
                    );
                    #endregion
#endif
                }

            }
            #endregion


            //#region HZCannon
            //// "Z:\jsc.svn\examples\javascript\WebGL\HeatZeekerRTSOrto\HeatZeekerRTSOrto\HeatZeekerRTSOrto.csproj"
            //new HeatZeekerRTSOrto.HZCannon().Source.Task.ContinueWithResult(
            //    async cube =>
            //    {
            //        // https://github.com/mrdoob/three.js/issues/1285
            //        //cube.children.WithEach(c => c.castShadow = true);

            //        //cube.traverse(
            //        //    new Action<THREE.Object3D>(
            //        //        child =>
            //        //        {
            //        //            // does it work? do we need it?
            //        //            //if (child is THREE.Mesh)

            //        //            child.castShadow = true;
            //        //            //child.receiveShadow = true;

            //        //        }
            //        //    )
            //        //);

            //        // um can edit and continue insert code going back in time?
            //        cube.scale.x = 10.0;
            //        cube.scale.y = 10.0;
            //        cube.scale.z = 10.0;



            //        //cube.castShadow = true;
            //        //dae.receiveShadow = true;

            //        //cube.position.x = -100;

            //        ////cube.position.y = (cube.scale.y * 50) / 2;
            //        //cube.position.z = Math.Floor((random() * 1000 - 500) / 50) * 50 + 25;



            //        // if i want to rotate, how do I do it?
            //        //cube.rotation.z = random() + Math.PI;
            //        //cube.rotation.x = random() + Math.PI;
            //        //var sw2 = Stopwatch.StartNew();



            //        cube.AttachTo(sceneg);
            //        //scene.add(cube);
            //        //interactiveObjects.Add(cube);

            //        // offset is wrong
            //        //while (true)
            //        //{
            //        //    await Native.window.async.onframe;

            //        //    cube.rotation.y = Math.PI * 0.0002 * sw2.ElapsedMilliseconds;

            //        //}
            //    }
            //);
            //#endregion


            #region HZCannon
            new HeatZeekerRTSOrto.HZCannon().Source.Task.ContinueWithResult(
                async cube =>
                {
                    // https://github.com/mrdoob/three.js/issues/1285
                    //cube.children.WithEach(c => c.castShadow = true);

                    //cube.traverse(
                    //    new Action<THREE.Object3D>(
                    //        child =>
                    //        {
                    //            // does it work? do we need it?
                    //            //if (child is THREE.Mesh)

                    //            child.castShadow = true;
                    //            //child.receiveShadow = true;

                    //        }
                    //    )
                    //);

                    // um can edit and continue insert code going back in time?
                    cube.scale.x = 10.0;
                    cube.scale.y = 10.0;
                    cube.scale.z = 10.0;



                    //cube.castShadow = true;
                    //dae.receiveShadow = true;


                    // jsc shat about out of band code patching?
                    cube.position.z = 600;
                    cube.position.x = -900;
                    //cube.position.y = -400;

                    //cube.position.x = -100;
                    //cube.position.y = -400;

                    ////cube.position.y = (cube.scale.y * 50) / 2;
                    //cube.position.z = Math.Floor((random() * 1000 - 500) / 50) * 50 + 25;



                    // if i want to rotate, how do I do it?
                    //cube.rotation.z = random() + Math.PI;
                    //cube.rotation.x = random() + Math.PI;
                    var sw2 = Stopwatch.StartNew();



                    //scene.add(cube);
                    cube.AttachTo(sceneg);
                    //interactiveObjects.Add(cube);

                    // offset is wrong
                    //while (true)
                    //{
                    //    await Native.window.async.onframe;

                    //    cube.rotation.y = Math.PI * 0.0002 * sw2.ElapsedMilliseconds;

                    //}
                }
            );
            #endregion


            #region HZBunker
            new HeatZeekerRTSOrto.HZBunker().Source.Task.ContinueWithResult(
                     cube =>
                     {
                         // https://github.com/mrdoob/three.js/issues/1285
                         //cube.children.WithEach(c => c.castShadow = true);
                         cube.castShadow = true;

                         //cube.traverse(
                         //    new Action<THREE.Object3D>(
                         //        child =>
                         //        {
                         //            // does it work? do we need it?
                         //            //if (child is THREE.Mesh)
                         //            child.castShadow = true;
                         //            //child.receiveShadow = true;

                         //        }
                         //    )
                         //);

                         // um can edit and continue insert code going back in time?
                         cube.scale.x = 10.0;
                         cube.scale.y = 10.0;
                         cube.scale.z = 10.0;

                         //cube.castShadow = true;
                         //dae.receiveShadow = true;

                         cube.position.x = -1000;
                         //cube.position.y = (cube.scale.y * 50) / 2;
                         cube.position.z = 0;

                         cube.AttachTo(sceneg);
                         //scene.add(cube);
                     }
                 );
            #endregion


            new Models.ColladaS6Edge().Source.Task.ContinueWithResult(
                   dae =>
                   {
                       // 90deg
                       dae.rotation.x = -Math.Cos(Math.PI);

                       //dae.scale.x = 30;
                       //dae.scale.y = 30;
                       //dae.scale.z = 30;
                       dae.position.z = -(65 - 200);





                       var scale = 0.9;

                       // jsc, do we have ILObserver available yet?
                       dae.scale.x = scale;
                       dae.scale.y = scale;
                       dae.scale.z = scale;


                       //#region onmousewheel
                       //Native.body.onmousewheel +=
                       //    e =>
                       //    {
                       //        e.preventDefault();

                       //        //camera.position.z = 1.5;

                       //        // min max. shall adjust speed also!
                       //        // max 4.0
                       //        // min 0.6
                       //        dae.position.z -= 10.0 * e.WheelDirection;

                       //        //camera.position.z = 400;
                       //        //dae.position.z = dae.position.z.Max(-200).Min(200);

                       //        //Native.document.title = new { z }.ToString();

                       //    };
                       //#endregion


                       ////dae.position.y = -80;

                       //dae.AttachTo(sceneg);
                       ////scene.add(dae);
                       //oo.Add(dae);




                       // view-source:http://threejs.org/examples/webgl_multiple_canvases_circle.html
                       // https://threejsdoc.appspot.com/doc/three.js/src.source/extras/cameras/CubeCamera.js.html
                       Native.window.onframe +=
                           e =>
                           {
                               // let render man know..
                               if (vsync != null)
                                   if (vsync.Task.IsCompleted)
                                       return;


                               //if (pause) return;
                               //if (pause.@checked)
                               //    return;


                               // can we float out of frame?
                               // haha. a bit too flickery.
                               //dae.position.x = Math.Sin(e.delay.ElapsedMilliseconds * 0.01) * 50.0;
                               //dae.position.x = Math.Sin(e.delay.ElapsedMilliseconds * 0.001) * 190.0;
                               dae.position.x = Math.Sin(fcamerax * 0.001) * 190.0;
                               dae.position.y = Math.Cos(fcamerax * 0.001) * 90.0;
                               // manual rebuild?
                               // red compiler notifies laptop chrome of pending update
                               // app reloads

                               applycameraoffset();
                               renderer0.clear();
                               //rendererPY.clear();

                               //cameraPX.aspect = canvasPX.aspect;
                               //cameraPX.updateProjectionMatrix();

                               // um what does this do?
                               //cameraPX.position.z += (z - cameraPX.position.z) * e.delay.ElapsedMilliseconds / 200.0;
                               // mousewheel allos the camera to move closer
                               // once we see the frame in vr, can we udp sync vr tracking back to laptop?


                               //this.targetPX.x += 1;
                               //this.targetNX.x -= 1;

                               //this.targetPY.y += 1;
                               //this.targetNY.y -= 1;

                               //this.targetPZ.z += 1;
                               //this.targetNZ.z -= 1;

                               // how does the 360 or shadertoy want our cubemaps?


                               // and then rotate right?

                               // how can we render cubemap?


                               #region x
                               // upside down?
                               renderer0.render(scene, cameraPX);
                               canvasPX.drawImage((IHTMLCanvas)renderer0.domElement, 0, 0, cubefacesize, cubefacesize);

                               renderer0.render(scene, cameraNX);
                               canvasNX.drawImage((IHTMLCanvas)renderer0.domElement, 0, 0, cubefacesize, cubefacesize);
                               #endregion

                               #region z
                               renderer0.render(scene, cameraPZ);
                               canvasPZ.drawImage((IHTMLCanvas)renderer0.domElement, 0, 0, cubefacesize, cubefacesize);

                               renderer0.render(scene, cameraNZ);
                               canvasNZ.drawImage((IHTMLCanvas)renderer0.domElement, 0, 0, cubefacesize, cubefacesize);
                               #endregion



                               #region y
                               renderer0.render(scene, cameraPY);

                               //canvasPY.save();
                               //canvasPY.translate(0, size);
                               //canvasPY.rotate((float)(-Math.PI / 2));
                               canvasPY.drawImage((IHTMLCanvas)renderer0.domElement, 0, 0, cubefacesize, cubefacesize);
                               //canvasPY.restore();


                               renderer0.render(scene, cameraNY);
                               //canvasNY.save();
                               //canvasNY.translate(size, 0);
                               //canvasNY.rotate((float)(Math.PI / 2));
                               canvasNY.drawImage((IHTMLCanvas)renderer0.domElement, 0, 0, cubefacesize, cubefacesize);
                               //canvasNY.restore();
                               // ?
                               #endregion


                               //renderer0.render(scene, cameraPX);


                               //rendererPY.render(scene, cameraPY);

                               // at this point we should be able to render the sphere texture

                               //public const uint TEXTURE_CUBE_MAP_POSITIVE_X = 34069;
                               //public const uint TEXTURE_CUBE_MAP_NEGATIVE_X = 34070;
                               //public const uint TEXTURE_CUBE_MAP_POSITIVE_Y = 34071;
                               //public const uint TEXTURE_CUBE_MAP_NEGATIVE_Y = 34072;
                               //public const uint TEXTURE_CUBE_MAP_POSITIVE_Z = 34073;
                               //public const uint TEXTURE_CUBE_MAP_NEGATIVE_Z = 34074;


                               //var cube0 = new IHTMLImage[] {
                               //        new CSS3DPanoramaByHumus.HTML.Images.FromAssets.humus_px(),
                               //        new CSS3DPanoramaByHumus.HTML.Images.FromAssets.humus_nx(),

                               //        new CSS3DPanoramaByHumus.HTML.Images.FromAssets.humus_py(),
                               //        new CSS3DPanoramaByHumus.HTML.Images.FromAssets.humus_ny(),


                               //        new CSS3DPanoramaByHumus.HTML.Images.FromAssets.humus_pz(),
                               //        new CSS3DPanoramaByHumus.HTML.Images.FromAssets.humus_nz()
                               //};

                               new[] {
                                   canvasPX, canvasNX,
                                   canvasPY, canvasNY,
                                   canvasPZ, canvasNZ
                               }.WithEachIndex(
                                   (img, index) =>
                                   {
                                       gl.bindTexture(gl.TEXTURE_CUBE_MAP, pass.tex);

                                       //gl.pixelStorei(gl.UNPACK_FLIP_X_WEBGL, false);
                                       gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, false);

                                       // http://stackoverflow.com/questions/15364517/pixelstoreigl-unpack-flip-y-webgl-true

                                       // https://msdn.microsoft.com/en-us/library/dn302429(v=vs.85).aspx
                                       //gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, 0);
                                       //gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, 1);

                                       gl.texImage2D(gl.TEXTURE_CUBE_MAP_POSITIVE_X + (uint)index, 0, gl.RGBA, gl.RGBA, gl.UNSIGNED_BYTE, img.canvas);

                                   }
                                );

                               // could do dynamic resolution- fog of war or fog of FOV. where up to 150deg field of vision is encouragedm, not 360
                               pass.Paint_Image(
                                     0,

                                     0,
                                     0,
                                     0,
                                     0
                                //,

                                // gl_FragCoord
                                // cannot be scaled, and can be referenced directly.
                                // need another way to scale
                                //zoom: 0.3f
                                );

                               //paintsw.Stop();


                               // what does it do?
                               gl.flush();

                               // let render man know..
                               if (vsync != null)
                                   if (!vsync.Task.IsCompleted)
                                       vsync.SetResult(null);
                           };


                   }
               );





            Console.WriteLine("do you see it?");
        }