class EpubParser { constructor(filesList) { this.files = filesList; this.parser = new DOMParser(); this.opfXml = this.getOPFXml(); this.encoder = new TextEncoder(); } getTotalByteLength() { let size = 0; for (let key of Object.keys(this.files)) { let file = this.files[key]; if (file.name.endsWith("html")) { // console.log(file.name + " " + file._data.uncompressedSize) size += file._data.uncompressedSize; } } return size; } /** * gets file from files and returns decompressed content as string * @param {string} filename name of the file in filelist * @return {string} string representation of decompressed bytes */ decompress(filename) { return pako.inflate(this.files[filename]._data.compressedContent, {raw: true, to: "string"}); } getOPFXml() { let content = this.decompress("META-INF/container.xml"); let xml = this.parser.parseFromString(content, "text/xml"); let path = xml.getElementsByTagName("rootfile")[0].getAttribute("full-path"); this.opfDir = path.split("/").slice(0, -1).join("/"); return this.parser.parseFromString(this.decompress(path), "text/xml"); } getSpine() { return Array.from(this.opfXml.getElementsByTagName("spine")[0].children).map(node => node.getAttribute("idref")); } /** resolves an idref in content.opf to its file */ resolveIDref(idref) { return this.absPath(this.opfXml.getElementById(idref).getAttribute("href")); } /** * returns absolute path from path relative to content.opf * @param path */ absPath(path) { if (this.opfDir) { return [this.opfDir, path].join("/"); } else { return path; } } /** returns the sum of the bytesize of all html files that are located before it in the spine @param {string} currentFile idref of the current file, also part of the CFI, e.g. here: #epubcfi(/6/2[titlepage]!/4/1:0) it would be "titlepage" */ getPreviousFilesSize(currentFile) { let bytesize = 0; for (let file of this.getSpine()) { if (file !== currentFile) { let filepath = this.resolveIDref(file); //ignore non text files if (filepath.endsWith("html")) { // console.log(filepath + " " + bytesize) bytesize += this.files[filepath]._data.uncompressedSize; } } else { break; } } return bytesize; } /** * resolves the given cfi to the xml node it points to * @param {string} cfi epub-cfi string in the form: epubcfi(/6/16[id13]!/4[id2]/4/2[doc12]/1:0) * @return XML Text-Node */ cfiToXmlNode(cfi) { let cfiPath = cfi.split("(")[1].split(")")[0]; let fileId = cfiPath.split("!")[0].split("[")[1].split("]")[0]; let xml = this.parser.parseFromString(this.decompress(this.resolveIDref(fileId)), "text/xml"); let components = cfiPath.split("!")[1].split("/").slice(1); let currentNode = xml.getElementsByTagName("html")[0]; for (const component of components) { this.validateChildNodes(currentNode); // console.log(currentNode); // console.log(component); let index = 0; if (component.includes("[")) { index = parseInt(component.split("[")[0]) - 1; currentNode = currentNode.childNodes[index]; console.assert(currentNode.getAttribute("id") === component.split("[")[1].split("]")[0], "failed to resolve node"); } else if (component.includes(":")) { index = component.split(":")[0] - 1; return currentNode.childNodes[index]; //exit point } else { index = parseInt(component); currentNode = currentNode.childNodes[index - 1]; } } } /** * inserts missing text/element nodes to keep them alternating * @param {*} parentNode */ validateChildNodes(parentNode) { for (let index = 0; index < parentNode.childNodes.length;) { const element = parentNode.childNodes[index]; if (index % 2 === 0 && element.nodeType === 1) { element.parentNode.insertBefore(parentNode.ownerDocument.createTextNode(""), element); continue; } if (index % 2 === 1 && element.nodeType === 3) { element.insertBefore(parentNode.ownerDocument.createElement("")); //TODO check continue; } index++; } } /** takes the node that the cfi points at and counts the bytes of all nodes before that */ getCurrentFileProgress(CFI) { let size = parseInt(CFI.split(":")[1])//text offset in node let startnode = this.cfiToXmlNode(CFI); //returns text node let xmlnsLength = startnode.parentNode.namespaceURI.length; let prev = startnode.parentNode.previousElementSibling; while (prev !== null) { // console.log("size: "+size) // console.log(prev.outerHTML) // console.log(this.encoder.encode(prev.outerHTML).length - xmlnsLength) size += this.encoder.encode(prev.outerHTML).length - xmlnsLength; prev = prev.previousElementSibling; } let parent = startnode.parentElement.parentElement; while (parent !== null) { let parentPrev = parent.previousElementSibling; while (parentPrev !== null) { // console.log(parentPrev.outerHTML) // console.log(this.encoder.encode(parentPrev.outerHTML).length - xmlnsLength) size += this.encoder.encode(parentPrev.outerHTML).length - xmlnsLength; parentPrev = parentPrev.previousElementSibling; } parent = parent.parentElement; } return size; } getProgress(currentFile, CFI) { let percentage = (this.getPreviousFilesSize(currentFile) + this.getCurrentFileProgress(CFI))/this.getTotalByteLength(); if (percentage === Infinity) { return 0; } else { return percentage; } } } function waitFor(variable, callback) { var interval = setInterval(function() { if (variable!==undefined) { clearInterval(interval); callback(); } }, 200); } /** * returns progress percentage * @return {number} */ function calculateProgress(){ let data=reader.rendition.currentLocation().end; return epubParser.getProgress(epubParser.absPath(data.href),data.cfi).toFixed(2)*100; } var epubParser; waitFor(reader.book,()=>{ epubParser = new EpubParser(reader.book.archive.zip.files); }) window.addEventListener('hashchange',()=>{console.log("test")}) /* document.getElementById("next").addEventListener('click',calculateProgress); document.getElementById("prev").addEventListener('click',calculateProgress); */