<link href="//maxcdn.bootstrapcdn.com/bootstrap/4.1.1/css/bootstrap.min.css" rel="stylesheet" id="bootstrap-css"> <script src="//maxcdn.bootstrapcdn.com/bootstrap/4.1.1/js/bootstrap.min.js"></script> <script src="//cdnjs.cloudflare.com/ajax/libs/jquery/3.2.1/jquery.min.js"></script> <!------ Include the above in your HEAD tag ----------> <div id="book"> <canvas id="pageflip-canvas"></canvas> <div id="pages"> <section> <div> <h2>History</h2> <p>Canvas was initially introduced by Apple for use inside their own Mac OS X WebKit component, powering applications like Dashboard widgets and the Safari browser. Later, it was adopted by Gecko browsers and Opera and standardized by the WHATWG on new proposed specifications for next generation web technologies.</p> </div> </section> <section> <div> <h2>Usage</h2> <p>Canvas consists of a drawable region defined in HTML code with height and width attributes. JavaScript code may access the area through a full set of drawing functions similar to other common 2D APIs, thus allowing for dynamically generated graphics. Some anticipated uses of canvas include building graphs, animations, games, and image composition.</p> </div> </section> <section> <div> <h2>Reactions</h2> <p>At the time of its introduction the canvas element was met with mixed reactions from the web standards community. There have been arguments against Apple's decision to create a new proprietary element instead of supporting the SVG standard. There are other concerns about syntax e.g. the absence of a namespace.</p> </div> </section> <section> <div> <h2>Support</h2> <p>The element is currently supported by the latest versions of Mozilla Firefox, Google Chrome, Safari, and Opera. It is not natively implemented by Internet Explorer (IE) as of version 8, though support is in development for Internet Explorer 9; however, many of the Canvas element's features can be supported in IE, for example by using Google or Mozilla plugins, JavaScript libraries and either Adobe Flash or IE's proprietary VML.</p> </div> </section> </div> </div>

body, h2, p { margin: 0; padding: 0; } body { background-color: #444; color: #333; font-family: Helvetica, sans-serif; } #book { background: url("book.png") no-repeat; position: absolute; width: 830px; height: 260px; left: 50%; top: 50%; margin-left: -400px; margin-top: -125px; } #pages section { background: url("paper.png") no-repeat; display: block; width: 400px; height: 250px; position: absolute; left: 415px; top: 5px; overflow: hidden; } #pages section>div { display: block; width: 400px; height: 250px; font-size: 12px; } #pages section p, #pages section h2 { padding: 3px 35px; line-height: 1.4em; text-align: justify; } #pages section h2{ margin: 15px 0 10px; } #pageflip-canvas { position: absolute; z-index: 100; }

(function() { // Dimensions of the whole book var BOOK_WIDTH = 830; var BOOK_HEIGHT = 260; // Dimensions of one page in the book var PAGE_WIDTH = 400; var PAGE_HEIGHT = 250; // Vertical spacing between the top edge of the book and the papers var PAGE_Y = ( BOOK_HEIGHT - PAGE_HEIGHT ) / 2; // The canvas size equals to the book dimensions + this padding var CANVAS_PADDING = 60; var page = 0; var canvas = document.getElementById( "pageflip-canvas" ); var context = canvas.getContext( "2d" ); var mouse = { x: 0, y: 0 }; var flips = []; var book = document.getElementById( "book" ); // List of all the page elements in the DOM var pages = book.getElementsByTagName( "section" ); // Organize the depth of our pages and create the flip definitions for( var i = 0, len = pages.length; i < len; i++ ) { pages[i].style.zIndex = len - i; flips.push( { // Current progress of the flip (left -1 to right +1) progress: 1, // The target value towards which progress is always moving target: 1, // The page DOM element related to this flip page: pages[i], // True while the page is being dragged dragging: false } ); } // Resize the canvas to match the book size canvas.width = BOOK_WIDTH + ( CANVAS_PADDING * 2 ); canvas.height = BOOK_HEIGHT + ( CANVAS_PADDING * 2 ); // Offset the canvas so that it's padding is evenly spread around the book canvas.style.top = -CANVAS_PADDING + "px"; canvas.style.left = -CANVAS_PADDING + "px"; // Render the page flip 60 times a second setInterval( render, 1000 / 60 ); document.addEventListener( "mousemove", mouseMoveHandler, false ); document.addEventListener( "mousedown", mouseDownHandler, false ); document.addEventListener( "mouseup", mouseUpHandler, false ); function mouseMoveHandler( event ) { // Offset mouse position so that the top of the spine is 0,0 mouse.x = event.clientX - book.offsetLeft - ( BOOK_WIDTH / 2 ); mouse.y = event.clientY - book.offsetTop; } function mouseDownHandler( event ) { if (Math.abs(mouse.x) < PAGE_WIDTH) { if (mouse.x < 0 && page - 1 >= 0) { flips[page - 1].dragging = true; } else if (mouse.x > 0 && page + 1 < flips.length) { flips[page].dragging = true; } } // Prevents the text selection cursor from appearing when dragging event.preventDefault(); } function mouseUpHandler( event ) { for( var i = 0; i < flips.length; i++ ) { // If this flip was being dragged we animate to its destination if( flips[i].dragging ) { // Figure out which page we should go to next depending on the flip direction if( mouse.x < 0 ) { flips[i].target = -1; page = Math.min( page + 1, flips.length ); } else { flips[i].target = 1; page = Math.max( page - 1, 0 ); } } flips[i].dragging = false; } } function render() { context.clearRect( 0, 0, canvas.width, canvas.height ); for (var i = 0; i < flips.length; i++) { var flip = flips[i]; if( flip.dragging ) { flip.target = Math.max( Math.min( mouse.x / PAGE_WIDTH, 1 ), -1 ); } flip.progress += ( flip.target - flip.progress ) * 0.2; // If the flip is being dragged or is somewhere in the middle of the book, render it if( flip.dragging || Math.abs( flip.progress ) < 0.997 ) { drawFlip( flip ); } } } function drawFlip( flip ) { // Strength of the fold is strongest in the middle of the book var strength = 1 - Math.abs( flip.progress ); // Width of the folded paper var foldWidth = ( PAGE_WIDTH * 0.5 ) * ( 1 - flip.progress ); // X position of the folded paper var foldX = PAGE_WIDTH * flip.progress + foldWidth; // How far the page should outdent vertically due to perspective var verticalOutdent = 20 * strength; // The maximum width of the left and right side shadows var paperShadowWidth = ( PAGE_WIDTH * 0.5 ) * Math.max( Math.min( 1 - flip.progress, 0.5 ), 0 ); var rightShadowWidth = ( PAGE_WIDTH * 0.5 ) * Math.max( Math.min( strength, 0.5 ), 0 ); var leftShadowWidth = ( PAGE_WIDTH * 0.5 ) * Math.max( Math.min( strength, 0.5 ), 0 ); // Change page element width to match the x position of the fold flip.page.style.width = Math.max(foldX, 0) + "px"; context.save(); context.translate( CANVAS_PADDING + ( BOOK_WIDTH / 2 ), PAGE_Y + CANVAS_PADDING ); // Draw a sharp shadow on the left side of the page context.strokeStyle = 'rgba(0,0,0,'+(0.05 * strength)+')'; context.lineWidth = 30 * strength; context.beginPath(); context.moveTo(foldX - foldWidth, -verticalOutdent * 0.5); context.lineTo(foldX - foldWidth, PAGE_HEIGHT + (verticalOutdent * 0.5)); context.stroke(); // Right side drop shadow var rightShadowGradient = context.createLinearGradient(foldX, 0, foldX + rightShadowWidth, 0); rightShadowGradient.addColorStop(0, 'rgba(0,0,0,'+(strength*0.2)+')'); rightShadowGradient.addColorStop(0.8, 'rgba(0,0,0,0.0)'); context.fillStyle = rightShadowGradient; context.beginPath(); context.moveTo(foldX, 0); context.lineTo(foldX + rightShadowWidth, 0); context.lineTo(foldX + rightShadowWidth, PAGE_HEIGHT); context.lineTo(foldX, PAGE_HEIGHT); context.fill(); // Left side drop shadow var leftShadowGradient = context.createLinearGradient(foldX - foldWidth - leftShadowWidth, 0, foldX - foldWidth, 0); leftShadowGradient.addColorStop(0, 'rgba(0,0,0,0.0)'); leftShadowGradient.addColorStop(1, 'rgba(0,0,0,'+(strength*0.15)+')'); context.fillStyle = leftShadowGradient; context.beginPath(); context.moveTo(foldX - foldWidth - leftShadowWidth, 0); context.lineTo(foldX - foldWidth, 0); context.lineTo(foldX - foldWidth, PAGE_HEIGHT); context.lineTo(foldX - foldWidth - leftShadowWidth, PAGE_HEIGHT); context.fill(); // Gradient applied to the folded paper (highlights & shadows) var foldGradient = context.createLinearGradient(foldX - paperShadowWidth, 0, foldX, 0); foldGradient.addColorStop(0.35, '#fafafa'); foldGradient.addColorStop(0.73, '#eeeeee'); foldGradient.addColorStop(0.9, '#fafafa'); foldGradient.addColorStop(1.0, '#e2e2e2'); context.fillStyle = foldGradient; context.strokeStyle = 'rgba(0,0,0,0.06)'; context.lineWidth = 0.5; // Draw the folded piece of paper context.beginPath(); context.moveTo(foldX, 0); context.lineTo(foldX, PAGE_HEIGHT); context.quadraticCurveTo(foldX, PAGE_HEIGHT + (verticalOutdent * 2), foldX - foldWidth, PAGE_HEIGHT + verticalOutdent); context.lineTo(foldX - foldWidth, -verticalOutdent); context.quadraticCurveTo(foldX, -verticalOutdent * 2, foldX, 0); context.fill(); context.stroke(); context.restore(); } })();