var Viewport = function ( signals ) { var container = new UI.Panel( 'absolute' ); container.setBackgroundColor( '#aaa' ); // var objects = []; var sceneHelpers = new THREE.Scene(); var size = 500, step = 25; var geometry = new THREE.Geometry(); var material = new THREE.LineBasicMaterial( { vertexColors: THREE.VertexColors } ); var color1 = new THREE.Color( 0x444444 ), color2 = new THREE.Color( 0x888888 ); for ( var i = - size; i <= size; i += step ) { geometry.vertices.push( new THREE.Vector3( -size, 0, i ) ); geometry.vertices.push( new THREE.Vector3( size, 0, i ) ); geometry.vertices.push( new THREE.Vector3( i, 0, -size ) ); geometry.vertices.push( new THREE.Vector3( i, 0, size ) ); var color = i === 0 ? color1 : color2; geometry.colors.push( color, color, color, color ); } var grid = new THREE.Line( geometry, material, THREE.LinePieces ); sceneHelpers.add( grid ); var selectionBox = new THREE.Mesh( new THREE.CubeGeometry( 1, 1, 1 ), new THREE.MeshBasicMaterial( { color: 0xffff00, wireframe: true } ) ); selectionBox.matrixAutoUpdate = false; selectionBox.visible = false; sceneHelpers.add( selectionBox ); var selectionAxis = new THREE.AxisHelper( 100 ); selectionAxis.material.depthTest = false; selectionAxis.material.transparent = true; selectionAxis.matrixAutoUpdate = false; selectionAxis.visible = false; sceneHelpers.add( selectionAxis ); // var scene = new THREE.Scene(); var camera = new THREE.PerspectiveCamera( 50, 1, 1, 5000 ); camera.position.set( 500, 250, 500 ); camera.lookAt( scene.position ); scene.add( camera ); var light1 = new THREE.DirectionalLight( 0xffffff ); light1.position.set( 1, 0.5, 0 ).normalize(); scene.add( light1 ); var light2 = new THREE.DirectionalLight( 0xffffff, 0.5 ); light2.position.set( - 1, - 0.5, 0 ).normalize(); scene.add( light2 ); // fog var oldFogType = "None"; var oldFogColor = 0xaaaaaa; var oldFogNear = 1; var oldFogFar = 5000; var oldFogDensity = 0.00025; // default objects names camera.name = "Camera"; light1.name = "Light 1"; light1.target.name = "Light 1 Target"; light2.name = "Light 2"; light2.target.name = "Light 2 Target"; signals.sceneChanged.dispatch( scene ); // active objects camera.properties.active = true; // object picking var intersectionPlane = new THREE.Mesh( new THREE.PlaneGeometry( 2000, 2000, 8, 8 ) ); intersectionPlane.visible = false; sceneHelpers.add( intersectionPlane ); var ray = new THREE.Ray(); var projector = new THREE.Projector(); var offset = new THREE.Vector3(); var picked = null; var cameraChanged = false; // events var onMouseDown = function ( event ) { container.dom.focus(); event.preventDefault(); if ( event.button === 0 ) { var vector = new THREE.Vector3( ( ( event.clientX - container.dom.offsetLeft ) / container.dom.offsetWidth ) * 2 - 1, - ( ( event.clientY - container.dom.offsetTop ) / container.dom.offsetHeight ) * 2 + 1, 0.5 ); projector.unprojectVector( vector, camera ); ray.set( camera.position, vector.subSelf( camera.position ).normalize() ); var intersects = ray.intersectObjects( objects, true ); if ( intersects.length > 0 ) { controls.enabled = false; intersectionPlane.position.copy( intersects[ 0 ].object.position ); intersectionPlane.lookAt( camera.position ); picked = intersects[ 0 ].object; selected = picked; signals.objectSelected.dispatch( selected ); var intersects = ray.intersectObject( intersectionPlane ); offset.copy( intersects[ 0 ].point ).subSelf( intersectionPlane.position ); document.addEventListener( 'mousemove', onMouseMove, false ); document.addEventListener( 'mouseup', onMouseUp, false ); } else { controls.enabled = true; } } cameraChanged = false; }; var onMouseMove = function ( event ) { var vector = new THREE.Vector3( ( ( event.clientX - container.dom.offsetLeft ) / container.dom.offsetWidth ) * 2 - 1, - ( ( event.clientY - container.dom.offsetTop ) / container.dom.offsetHeight ) * 2 + 1, 0.5 ); projector.unprojectVector( vector, camera ); ray.set( camera.position, vector.subSelf( camera.position ).normalize() ); var intersects = ray.intersectObject( intersectionPlane ); if ( intersects.length > 0 ) { picked.position.copy( intersects[ 0 ].point.subSelf( offset ) ); signals.objectChanged.dispatch( picked ); render(); } }; var onMouseUp = function ( event ) { document.removeEventListener( 'mousemove', onMouseMove ); document.removeEventListener( 'mouseup', onMouseUp ); }; var onClick = function ( event ) { if ( event.button == 0 && cameraChanged === false ) { var vector = new THREE.Vector3( ( ( event.clientX - container.dom.offsetLeft ) / container.dom.offsetWidth ) * 2 - 1, - ( ( event.clientY - container.dom.offsetTop ) / container.dom.offsetHeight ) * 2 + 1, 0.5 ); projector.unprojectVector( vector, camera ); ray.set( camera.position, vector.subSelf( camera.position ).normalize() ); var intersects = ray.intersectObjects( objects, true ); if ( intersects.length > 0 && ! controls.enabled ) { selected = intersects[ 0 ].object; } else { selected = camera; } signals.objectSelected.dispatch( selected ); } controls.enabled = true; }; var onKeyDown = function ( event ) { switch ( event.keyCode ) { case 46: // delete signals.removeSelectedObject.dispatch(); break; } }; container.dom.addEventListener( 'mousedown', onMouseDown, false ); container.dom.addEventListener( 'click', onClick, false ); // controls need to be added *after* main logic, // otherwise controls.enabled doesn't work. var controls = new THREE.TrackballControls( camera, container.dom ); controls.rotateSpeed = 1.0; controls.zoomSpeed = 1.2; controls.panSpeed = 0.8; controls.noZoom = false; controls.noPan = false; controls.staticMoving = true; controls.dynamicDampingFactor = 0.3; controls.addEventListener( 'change', function () { cameraChanged = true; signals.cameraChanged.dispatch( camera ); render(); } ); // signals signals.objectAdded.add( function ( object ) { object.traverse( function ( child ) { objects.push( child ); } ); scene.add( object ); render(); signals.sceneChanged.dispatch( scene ); } ); signals.objectChanged.add( function ( object ) { if ( object instanceof THREE.Camera ) { object.updateProjectionMatrix(); } render(); } ); signals.removeSelectedObject.add( function () { if ( selected === camera ) return; var name = selected.name ? '"' + selected.name + '"': "selected object"; if ( ! confirm( 'Delete ' + name + '?' ) ) { return; } var toRemove = {}; selected.traverse( function ( child ) { toRemove[ child.id ] = true; } ); var newObjects = []; for ( var i = 0; i < objects.length; i ++ ) { var object = objects[ i ]; if ( ! ( object.id in toRemove ) ) { newObjects.push( object ); } } objects = newObjects; selectionBox.visible = false; selectionAxis.visible = false; scene.traverse( function( node ) { node.remove( selected ); } ); render(); signals.sceneChanged.dispatch( scene ); signals.objectSelected.dispatch( null ); } ); var selected = camera; signals.objectSelected.add( function ( object ) { selectionBox.visible = false; selectionAxis.visible = false; if ( object !== null && object.geometry ) { var geometry = object.geometry; if ( geometry.boundingBox === null ) { geometry.computeBoundingBox(); } selectionBox.geometry.vertices[ 0 ].x = geometry.boundingBox.max.x; selectionBox.geometry.vertices[ 0 ].y = geometry.boundingBox.max.y; selectionBox.geometry.vertices[ 0 ].z = geometry.boundingBox.max.z; selectionBox.geometry.vertices[ 1 ].x = geometry.boundingBox.max.x; selectionBox.geometry.vertices[ 1 ].y = geometry.boundingBox.max.y; selectionBox.geometry.vertices[ 1 ].z = geometry.boundingBox.min.z; selectionBox.geometry.vertices[ 2 ].x = geometry.boundingBox.max.x; selectionBox.geometry.vertices[ 2 ].y = geometry.boundingBox.min.y; selectionBox.geometry.vertices[ 2 ].z = geometry.boundingBox.max.z; selectionBox.geometry.vertices[ 3 ].x = geometry.boundingBox.max.x; selectionBox.geometry.vertices[ 3 ].y = geometry.boundingBox.min.y; selectionBox.geometry.vertices[ 3 ].z = geometry.boundingBox.min.z; selectionBox.geometry.vertices[ 4 ].x = geometry.boundingBox.min.x; selectionBox.geometry.vertices[ 4 ].y = geometry.boundingBox.max.y; selectionBox.geometry.vertices[ 4 ].z = geometry.boundingBox.min.z; selectionBox.geometry.vertices[ 5 ].x = geometry.boundingBox.min.x; selectionBox.geometry.vertices[ 5 ].y = geometry.boundingBox.max.y; selectionBox.geometry.vertices[ 5 ].z = geometry.boundingBox.max.z; selectionBox.geometry.vertices[ 6 ].x = geometry.boundingBox.min.x; selectionBox.geometry.vertices[ 6 ].y = geometry.boundingBox.min.y; selectionBox.geometry.vertices[ 6 ].z = geometry.boundingBox.min.z; selectionBox.geometry.vertices[ 7 ].x = geometry.boundingBox.min.x; selectionBox.geometry.vertices[ 7 ].y = geometry.boundingBox.min.y; selectionBox.geometry.vertices[ 7 ].z = geometry.boundingBox.max.z; selectionBox.geometry.computeBoundingSphere(); selectionBox.geometry.verticesNeedUpdate = true; selectionBox.matrixWorld = object.matrixWorld; selectionAxis.matrixWorld = object.matrixWorld; selectionBox.visible = true; selectionAxis.visible = true; } if ( object !== null ) { selected = object; } render(); } ); signals.materialChanged.add( function ( material ) { render(); } ); signals.clearColorChanged.add( function ( color ) { renderer.setClearColorHex( color, 1 ); render(); } ); signals.fogTypeChanged.add( function ( fogType ) { if ( fogType !== oldFogType ) { if ( fogType === "None" ) { scene.fog = null; } else if ( fogType === "Fog" ) { scene.fog = new THREE.Fog( oldFogColor, oldFogNear, oldFogFar ); } else if ( fogType === "FogExp2" ) { scene.fog = new THREE.FogExp2( oldFogColor, oldFogDensity ); } updateMaterials( scene ); var enableHelpersFog = true; if ( enableHelpersFog ) { sceneHelpers.fog = scene.fog; updateMaterials( sceneHelpers ); } oldFogType = fogType; } render(); } ); signals.fogColorChanged.add( function ( fogColor ) { oldFogColor = fogColor; updateFog( scene ); render(); } ); signals.fogParametersChanged.add( function ( near, far, density ) { oldFogNear = near; oldFogFar = far; oldFogDensity = density; updateFog( scene ); render(); } ); signals.windowResize.add( function () { camera.aspect = container.dom.offsetWidth / container.dom.offsetHeight; camera.updateProjectionMatrix(); renderer.setSize( container.dom.offsetWidth, container.dom.offsetHeight ); render(); } ); signals.exportScene.add( function ( root ) { var clearColor = renderer.getClearColor(); var clearAlpha = renderer.getClearAlpha(); var output = new THREE.SceneExporter().parse( root, clearColor, clearAlpha ); var blob = new Blob( [ output ], { type: 'text/plain' } ); var objectURL = URL.createObjectURL( blob ); window.open( objectURL, '_blank' ); window.focus(); } ); // var renderer = new THREE.WebGLRenderer( { antialias: true, alpha: false, clearColor: 0xaaaaaa, clearAlpha: 1 } ); renderer.autoClear = false; renderer.autoUpdateScene = false; container.dom.appendChild( renderer.domElement ); animate(); // set up for hotkeys // must be done here, otherwise it doesn't work container.dom.tabIndex = 1; container.dom.style.outline = 'transparent'; container.dom.addEventListener( 'keydown', onKeyDown, false ); // function updateMaterials( root ) { root.traverse( function ( node ) { if ( node.material ) { node.material.needsUpdate = true; } if ( node.geometry && node.geometry.materials ) { for ( var i = 0; i < node.geometry.materials.length; i ++ ) { node.geometry.materials[ i ].needsUpdate = true; } } } ); } function updateFog( root ) { if ( root.fog ) { root.fog.color.setHex( oldFogColor ); if ( root.fog.near !== undefined ) root.fog.near = oldFogNear; if ( root.fog.far !== undefined ) root.fog.far = oldFogFar; if ( root.fog.density !== undefined ) root.fog.density = oldFogDensity; } } function animate() { requestAnimationFrame( animate ); controls.update(); } function render() { sceneHelpers.updateMatrixWorld(); scene.updateMatrixWorld(); renderer.clear(); renderer.render( scene, camera ); renderer.render( sceneHelpers, camera ); } return container; }