( function () { class HTMLMesh extends THREE.Mesh { constructor( dom ) { const texture = new HTMLTexture( dom ); const geometry = new THREE.PlaneGeometry( texture.image.width * 0.001, texture.image.height * 0.001 ); const material = new THREE.MeshBasicMaterial( { map: texture, toneMapped: false } ); super( geometry, material ); function onEvent( event ) { material.map.dispatchEvent( event ); } this.addEventListener( 'mousedown', onEvent ); this.addEventListener( 'mousemove', onEvent ); this.addEventListener( 'mouseup', onEvent ); this.addEventListener( 'click', onEvent ); } } class HTMLTexture extends THREE.CanvasTexture { constructor( dom ) { super( html2canvas( dom ) ); this.dom = dom; this.anisotropy = 16; this.encoding = THREE.sRGBEncoding; this.minFilter = THREE.LinearFilter; this.magFilter = THREE.LinearFilter; } dispatchEvent( event ) { htmlevent( this.dom, event.type, event.data.x, event.data.y ); this.update(); } update() { this.image = html2canvas( this.dom ); this.needsUpdate = true; } } // const canvases = new WeakMap(); function html2canvas( element ) { var range = document.createRange(); function Clipper( context ) { var clips = []; var isClipping = false; function doClip() { if ( isClipping ) { isClipping = false; context.restore(); } if ( clips.length === 0 ) return; var minX = - Infinity, minY = - Infinity; var maxX = Infinity, maxY = Infinity; for ( var i = 0; i < clips.length; i ++ ) { var clip = clips[ i ]; minX = Math.max( minX, clip.x ); minY = Math.max( minY, clip.y ); maxX = Math.min( maxX, clip.x + clip.width ); maxY = Math.min( maxY, clip.y + clip.height ); } context.save(); context.beginPath(); context.rect( minX, minY, maxX - minX, maxY - minY ); context.clip(); isClipping = true; } return { add: function ( clip ) { clips.push( clip ); doClip(); }, remove: function () { clips.pop(); doClip(); } }; } function drawText( style, x, y, string ) { if ( string !== '' ) { if ( style.textTransform === 'uppercase' ) { string = string.toUpperCase(); } context.font = style.fontSize + ' ' + style.fontFamily; context.textBaseline = 'top'; context.fillStyle = style.color; context.fillText( string, x, y ); } } function drawBorder( style, which, x, y, width, height ) { var borderWidth = style[ which + 'Width' ]; var borderStyle = style[ which + 'Style' ]; var borderColor = style[ which + 'Color' ]; if ( borderWidth !== '0px' && borderStyle !== 'none' && borderColor !== 'transparent' && borderColor !== 'rgba(0, 0, 0, 0)' ) { context.strokeStyle = borderColor; context.beginPath(); context.moveTo( x, y ); context.lineTo( x + width, y + height ); context.stroke(); } } function drawElement( element, style ) { var x = 0, y = 0, width = 0, height = 0; if ( element.nodeType === 3 ) { // text range.selectNode( element ); var rect = range.getBoundingClientRect(); x = rect.left - offset.left - 0.5; y = rect.top - offset.top - 0.5; width = rect.width; height = rect.height; drawText( style, x, y, element.nodeValue.trim() ); } else { if ( element.style.display === 'none' ) return; var rect = element.getBoundingClientRect(); x = rect.left - offset.left - 0.5; y = rect.top - offset.top - 0.5; width = rect.width; height = rect.height; style = window.getComputedStyle( element ); var backgroundColor = style.backgroundColor; if ( backgroundColor !== 'transparent' && backgroundColor !== 'rgba(0, 0, 0, 0)' ) { context.fillStyle = backgroundColor; context.fillRect( x, y, width, height ); } drawBorder( style, 'borderTop', x, y, width, 0 ); drawBorder( style, 'borderLeft', x, y, 0, height ); drawBorder( style, 'borderBottom', x, y + height, width, 0 ); drawBorder( style, 'borderRight', x + width, y, 0, height ); if ( element.type === 'color' || element.type === 'text' ) { clipper.add( { x: x, y: y, width: width, height: height } ); drawText( style, x + parseInt( style.paddingLeft ), y + parseInt( style.paddingTop ), element.value ); clipper.remove(); } } /* // debug context.strokeStyle = '#' + Math.random().toString( 16 ).slice( - 3 ); context.strokeRect( x - 0.5, y - 0.5, width + 1, height + 1 ); */ var isClipping = style.overflow === 'auto' || style.overflow === 'hidden'; if ( isClipping ) clipper.add( { x: x, y: y, width: width, height: height } ); for ( var i = 0; i < element.childNodes.length; i ++ ) { drawElement( element.childNodes[ i ], style ); } if ( isClipping ) clipper.remove(); } const offset = element.getBoundingClientRect(); let canvas; if ( canvases.has( element ) ) { canvas = canvases.get( element ); } else { canvas = document.createElement( 'canvas' ); canvas.width = offset.width; canvas.height = offset.height; } const context = canvas.getContext( '2d' /*, { alpha: false }*/ ); const clipper = new Clipper( context ); // console.time( 'drawElement' ); drawElement( element ); // console.timeEnd( 'drawElement' ); return canvas; } function htmlevent( element, event, x, y ) { const mouseEventInit = { clientX: x * element.offsetWidth + element.offsetLeft, clientY: y * element.offsetHeight + element.offsetTop, view: element.ownerDocument.defaultView }; window.dispatchEvent( new MouseEvent( event, mouseEventInit ) ); const rect = element.getBoundingClientRect(); x = x * rect.width + rect.left; y = y * rect.height + rect.top; function traverse( element ) { if ( element.nodeType !== 3 ) { const rect = element.getBoundingClientRect(); if ( x > rect.left && x < rect.right && y > rect.top && y < rect.bottom ) { element.dispatchEvent( new MouseEvent( event, mouseEventInit ) ); } for ( var i = 0; i < element.childNodes.length; i ++ ) { traverse( element.childNodes[ i ] ); } } } traverse( element ); } THREE.HTMLMesh = HTMLMesh; } )();