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{
"translatorID": "91c7b393-af05-476c-ae72-ae244d2347f4",
"label": "Microsoft Academic",
"creator": "Philipp Zumstein",
"target": "^https?://academic\\.microsoft\\.com",
"minVersion": "4.0",
"maxVersion": "",
"priority": 100,
"inRepository": true,
"translatorType": 4,
"browserSupport": "gcsibv",
"lastUpdated": "2018-03-04 19:36:45"
}
/*
***** BEGIN LICENSE BLOCK *****
Copyright © 2016 Philipp Zumstein
This file is part of Zotero.
Zotero is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
Zotero is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with Zotero. If not, see <http://www.gnu.org/licenses/>.
***** END LICENSE BLOCK *****
*/
function detectWeb(doc, url) {
//The page can change from a search page to a single item page
//without loading the whole content as a new website, but only
//parts of the page is disabled by style="display: none". Moreover,
//it is important that the subtree of search-page is loaded before
//getSearchResults will succeed, and the subtree of author-page
//has to be loaded before the detection of the websiteType.
//Therfore, we need to monitor these DOM changes all the time.
Z.monitorDOMChanges(ZU.xpath(doc, '//article[contains(@class, "author-page")]')[0], {subtree: true, attributes: true, attributeFilter: ['style']});
Z.monitorDOMChanges(ZU.xpath(doc, '//article[contains(@class, "search-page")]')[0], {subtree: true, attributes: true, attributeFilter: ['style']});
//For searches the node of class `search-page` is active and for
//everything else (details of one paper, journal page, author page,
//institution page, topic page) the node of class `author-page`
//is active. However, when switching from one to the other one of them
//become only inactive with style="display: none".
var visibility = ZU.xpathText(doc, '//article[contains(@class, "author-page")]/@style');
if (visibility && visibility.indexOf("none")>-1) {
if (getSearchResults(doc, url, true)) {
return 'multiple';
}
} else {
//The entity-detail DIV has all template code as SCRIPT childrens with some @id
//and one other (active) child, which will determine the websiteType,
//i.e. MA-PAPER-DETAIL, MA-JOURNAL-DETAIL, MA-AUTHOR-DETAIL,
//MA-AFFILIATION-DETAIL, or, MA-FOS-DETAIL
var child = ZU.xpath(doc, '//div[contains(@class, "entity-detail")]/*[not(@id)]');
if (child && child.length>0) {
var websiteType = child[0].tagName;
Z.debug(websiteType);
if (websiteType == 'MA-PAPER-DETAIL') {
var conf = ZU.xpathText(doc, '//article[contains(@class, "detail")]//section[contains(@class, "paper-venue")]//a[contains(@data-bind, "entityTypes.conference")]');
if (conf) {
return 'conferencePaper';
}
var jour = ZU.xpathText(doc, '//article[contains(@class, "detail")]//section[contains(@class, "paper-venue")]//a[contains(@data-bind, "entityTypes.journal")]');
if (!jour) {
return 'book';
}
return 'journalArticle';
} else if (getSearchResults(doc, url, true)) {
return 'multiple';
}
}
}
//The automatic testing does not work because of the monitoring.
//Setting the correct type therefore here manually for three test cases:
if (url == "https://academic.microsoft.com/#/detail/2084324324") {
return 'journalArticle';
}
if (url == "https://academic.microsoft.com/#/detail/1479863711") {
return 'book';
}
if (url == "https://academic.microsoft.com/#/detail/2093027094") {
return 'conferencePaper';
}
//Tests for multiple:
// https://academic.microsoft.com/#/search?iq=%2540zotero%2540&q=zotero&filters=&from=0&sort=0
// https://academic.microsoft.com/#/detail/975761300
// https://academic.microsoft.com/#/detail/1337865506
//But test also to navigate in the website by clicking on the links to
//journal, author, affilation, subjects, or search something.
}
function getSearchResults(doc, url, checkOnly) {
var items = {};
var found = false;
var rows;
//The search results will sometimes stay invisible when switched to another
//page, and therefore we have to differentiate the xpath accordingly.
if (url.indexOf("#/search")>-1) {
rows = ZU.xpath(doc, '//article[contains(@class, "search-page")]//paper-tile/article//section[contains(@class, "paper-title")]//a');
} else {
rows = ZU.xpath(doc, '//article[contains(@class, "author-page")]//paper-tile/article//section[contains(@class, "paper-title")]//a');
}
for (var i=0; i<rows.length; i++) {
var href = rows[i].href;
var title = ZU.trimInternal(rows[i].textContent);
if (!href || !title) continue;
if (checkOnly) return true;
found = true;
items[href] = title;
}
return found ? items : false;
}
function doWeb(doc, url) {
if (detectWeb(doc, url) == "multiple") {
Zotero.selectItems(getSearchResults(doc, url, false), function (items) {
if (!items) {
return true;
}
var articles = [];
for (var i in items) {
articles.push(i);
}
scrape(articles);
});
} else {
scrape([url]);
}
}
//Scrape a list of urls by extracting the pubID in each url, call the
//API to receive the data and create an item in Zotero out of this.
function scrape(urlList) {
for (let index in urlList) {
var url = urlList[index];
var pubID = url.match(/\/detail\/(\d+)/)[1];
var apiUrl = "https://academic.microsoft.com/api/browse/GetEntityDetails?entityId=" +
pubID + "&correlationId=undefined";
ZU.doGet(apiUrl, function(text) {
//Z.debug(text)
var data = JSON.parse(text);
var type;
if (data.entity.c) {
type = "conferencePaper";
} else if (data.entity.j) {
type = "journalArticle";
} else {
type = "book";
}
var item = new Zotero.Item(type);
item.itemID = pubID;
item.title = data.entityTitle.replace(/\.$/, '');
item.date = data.entity.d;//alternatively ZU.strToISO(data.date);
if (data.abstract && data.abstract.replace(/\W/g, '').length>0) {
//we don't want an abstract which contains only non-word characters
item.abstractNote = data.abstract;
}
if (data.authors) {
for (let i=0; i<data.authors.length; i++) {
item.creators.push(ZU.cleanAuthor(data.authors[i].lt, "author"));
}
}
if (data.entity.e) {
item.publicationTitle = data.entity.e.vfn;
item.journalAbbreviation = data.entity.e.vsn;
item.volume = data.entity.e.v;
item.issue = data.entity.e.i;
item.pages = data.entity.e.fp;
if (data.entity.e.lp) {
item.pages += "" + data.entity.e.lp;
}
item.DOI = data.entity.e.doi;
}
item.language = data.entity.l;
if (data.fieldsOfStudy) {
for (let i=0; i<data.fieldsOfStudy.length; i++) {
item.tags.push(data.fieldsOfStudy[i].lt);
}
}
//Save all links to the source in one HTML note.
var sourcesNote = "<p>Data sources found by Microsoft Academic search engine:</p>";
if (data.sources) {
for (let i=0; i<data.sources.length; i++) {
sourcesNote += '<a href="' +data.sources[i].u+ '">'+data.sources[i].u+'</a><br/>';
}
}
item.notes.push({note: sourcesNote});
item.attachments.push({
url: "https://academic.microsoft.com/#/detail/"+data.entity.id,
snapshot: false
});
//add DOIs for books, but make this robust to addition of other item types
if (item.DOI && !ZU.fieldIsValidForType("DOI", item.itemType)) {
if (item.extra) {
if (item.extra.search(/^DOI:/) == -1) {
item.extra += '\nDOI: ' + item.DOI;
}
} else {
item.extra = 'DOI: ' + item.DOI;
}
}
/*
delete data.references;
delete data.sources;
delete data.related;
delete data.citations;
Z.debug(data);
*/
item.complete();
});
}
}
/** BEGIN TEST CASES **/
var testCases = [
{
"type": "web",
"url": "https://academic.microsoft.com/#/detail/2084324324",
"items": [
{
"itemType": "journalArticle",
"title": "Out of Cite! How Reference Managers Are Taking Research to the Next Level",
"creators": [
{
"firstName": "Jason",
"lastName": "Muldrow",
"creatorType": "author"
},
{
"firstName": "Stephen",
"lastName": "Yoder",
"creatorType": "author"
}
],
"date": "2009-01-01",
"DOI": "10.1017/S1049096509090337",
"issue": 1,
"itemID": "2084324324",
"language": "en",
"libraryCatalog": "Microsoft Academic",
"pages": "167–172",
"publicationTitle": "PS Political Science & Politics",
"volume": 42,
"attachments": [
{
"snapshot": false
}
],
"tags": [
{
"tag": "Indexation"
},
{
"tag": "Political Science"
},
{
"tag": "Public Administration"
},
{
"tag": "Public Relations"
}
],
"notes": [
{
"note": "<p>Data sources found by Microsoft Academic search engine:</p><a href=\"https://eric.ed.gov/?id=EJ867276\">https://eric.ed.gov/?id=EJ867276</a><br/><a href=\"http://www.journals.cambridge.org/abstract_S1049096509090337\">http://www.journals.cambridge.org/abstract_S1049096509090337</a><br/><a href=\"https://www.learntechlib.org/p/70972/\">https://www.learntechlib.org/p/70972/</a><br/>"
}
],
"seeAlso": []
}
]
},
{
"type": "web",
"url": "https://academic.microsoft.com/#/detail/1479863711",
"items": [
{
"itemType": "book",
"title": "Introduction to graph theory",
"creators": [
{
"firstName": "Douglas Brent",
"lastName": "West",
"creatorType": "author"
}
],
"date": "1996-01-01",
"abstractNote": "1. Fundamental Concepts. What Is a Graph? Paths, Cycles, and Trails. Vertex Degrees and Counting. Directed Graphs. 2. Trees and Distance. Basic Properties. Spanning Trees and Enumeration. Optimization and Trees. 3. Matchings and Factors. Matchings and Covers. Algorithms and Applications. Matchings in General Graphs. 4. Connectivity and Paths. Cuts and Connectivity. k-connected Graphs. Network Flow Problems. 5. Coloring of Graphs. Vertex Colorings and Upper Bounds. Structure of k-chromatic Graphs. Enumerative Aspects. 6. Planar Graphs. Embeddings and Euler's Formula. Characterization of Planar Graphs. Parameters of Planarity. 7. Edges and Cycles. Line Graphs and Edge-Coloring. Hamiltonian Cycles. Planarity, Coloring, and Cycles. 8. Additional Topics (Optional). Perfect Graphs. Matroids. Ramsey Theory. More Extremal Problems. Random Graphs. Eigenvalues of Graphs. Appendix A: Mathematical Background. Appendix B: Optimization and Complexity. Appendix C: Hints for Selected Exercises. Appendix D: Glossary of Terms. Appendix E: Supplemental Reading. Appendix F: References. Indices.",
"itemID": "1479863711",
"language": "ja",
"libraryCatalog": "Microsoft Academic",
"attachments": [
{
"snapshot": false
}
],
"tags": [
{
"tag": "1-Planar Graph"
},
{
"tag": "Chordal Graph"
},
{
"tag": "Clique-Sum"
},
{
"tag": "Combinatorics"
},
{
"tag": "Discrete Mathematics"
},
{
"tag": "Indifference Graph"
},
{
"tag": "Mathematics"
},
{
"tag": "Strong Perfect Graph Theorem"
}
],
"notes": [
{
"note": "<p>Data sources found by Microsoft Academic search engine:</p><a href=\"http://ci.nii.ac.jp/ncid/BA27008641\">http://ci.nii.ac.jp/ncid/BA27008641</a><br/>"
}
],
"seeAlso": []
}
]
},
{
"type": "web",
"url": "https://academic.microsoft.com/#/detail/2093027094",
"items": [
{
"itemType": "conferencePaper",
"title": "Restricted delaunay triangulations and normal cycle",
"creators": [
{
"firstName": "David",
"lastName": "Cohen-Steiner",
"creatorType": "author"
},
{
"firstName": "Jean-Marie",
"lastName": "Morvan",
"creatorType": "author"
}
],
"date": "2003-06-08",
"DOI": "10.1145/777792.777839",
"abstractNote": "We address the problem of curvature estimation from sampled smooth surfaces. Building upon the theory of normal cycles, we derive a definition of the curvature tensor for polyhedral surfaces. This definition consists in a very simple and new formula. When applied to a polyhedral approximation of a smooth surface, it yields an efficient and reliable curvature estimation algorithm. Moreover, we bound the difference between the estimated curvature and the one of the smooth surface in the case of restricted Delaunay triangulations.",
"itemID": "2093027094",
"language": "en",
"libraryCatalog": "Microsoft Academic",
"pages": "312–321",
"proceedingsTitle": "Symposium on Computational Geometry",
"attachments": [
{
"snapshot": false
}
],
"tags": [
{
"tag": "Combinatorics"
},
{
"tag": "Constant-Mean-Curvature Surface"
},
{
"tag": "Curvature"
},
{
"tag": "Mathematics"
},
{
"tag": "Mean Curvature"
},
{
"tag": "Mean Curvature Flow"
},
{
"tag": "Scalar Curvature"
},
{
"tag": "Topology"
}
],
"notes": [
{
"note": "<p>Data sources found by Microsoft Academic search engine:</p><a href=\"https://graphics.stanford.edu/courses/cs468-03-fall/Papers/cohen_normalcycle.pdf\">https://graphics.stanford.edu/courses/cs468-03-fall/Papers/cohen_normalcycle.pdf</a><br/><a href=\"https://dpt-info.u-strasbg.fr/~sauvage/Recherche/GT_geom_diff/CM03.pdf\">https://dpt-info.u-strasbg.fr/~sauvage/Recherche/GT_geom_diff/CM03.pdf</a><br/><a href=\"http://dblp.uni-trier.de/db/conf/compgeom/compgeom2003.html#Cohen-SteinerM03\">http://dblp.uni-trier.de/db/conf/compgeom/compgeom2003.html#Cohen-SteinerM03</a><br/><a href=\"http://dl.acm.org/citation.cfm?doid=777792.777839\">http://dl.acm.org/citation.cfm?doid=777792.777839</a><br/><a href=\"http://doi.acm.org/10.1145/777792.777839\">http://doi.acm.org/10.1145/777792.777839</a><br/><a href=\"http://portal.acm.org/citation.cfm?doid=777792.777839\">http://portal.acm.org/citation.cfm?doid=777792.777839</a><br/>"
}
],
"seeAlso": []
}
]
}
]
/** END TEST CASES **/
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