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Espacenet: Bug fixes and minor improvements (zotero#1748) 

* Bug fix (issue with locale identification) and minor improvements

Locale identification failed because the URL may end with an # -> fixed with new regex on line 93.
Using secondaryInventors  and secondaryApplicants led to duplicates -> fixed by using inventors and applicants instead (l. 156, 165)
Names from inventors and applicants include country code in brackets -> fixed with modified regex on line 129.
Case correction did not work when some names where upper case and some not -> fixde by eliminating test on line 131 and going first to lower case on line 132.
Catching the application number through default case led to inclusion of parasitic text ("global dossier") -> fixed with specific case and XPath on line 190
Current patent number is directly accessible through navigation block on left of the page, so that text cleanup is not necessary -> new assignement on line 204.
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@pjalet @adam3smith
pjalet authored and adam3smith committed Nov 12, 2018
1 parent 313362a commit 452df578960ac6d95643048936e9cf9e0798a5a8
Unified Split
Showing with 31 additions and 41 deletions.
  1. +31 −41 ESpacenet.js
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72 ESpacenet.js
@@ -9,7 +9,7 @@
"inRepository": true,
"translatorType": 4,
"browserSupport": "gcsibv",
"lastUpdated": "2016-10-31 16:26:28"
"lastUpdated": "2018-10-07 20:15:16"
}

/*
@@ -36,7 +36,7 @@
*/

function detectWeb(doc, url) {
if (url.indexOf("searchResults?") !== -1
if (url.includes("searchResults?")
&& getSearchResults(doc).length) {
return "multiple";
}
@@ -87,10 +87,10 @@ var i18n = {
"Numéro(s) de priorité:": "Priority number(s):",
"Signet": "Page bookmark"
}
}
};

function initLocale(url) {
var m = url.match(/[?&]locale=([^&]+)/);
var m = url.match(/[?&]locale=([a-zA-Z_]+)/);
if (m && i18n[m[1]]) {
i18n = i18n[m[1]];
} else {
@@ -107,7 +107,6 @@ function L(label, fromEN) {
}
return label;
}

return i18n[label] || label;
}

@@ -126,12 +125,9 @@ function applyValue(newItem, label, value) {
//clean up names list and call callback with a clean name
function cleanNames(names, callback) {
if (names) {
names = names.replace(/[()]/g, "").trim();

if (names == names.toUpperCase()) {
names = ZU.capitalizeTitle(names, true);
}

//Z.debug(names)
names = names.replace(/\[[a-zA-Z]*\]/g, "").trim(); // to eliminate country code in square brackets after inventors' and applicants' names
names = ZU.capitalizeTitle(names.toLowerCase(), true);
names = names.split(/\s*;\s*/);
for (var j=0, m=names.length; j<m; j++) {
callback(names[j].replace(/\s*,$/, ''));
@@ -150,11 +146,9 @@ function scrape(doc) {
var label = L(rows[i].firstElementChild.textContent.trim());
var value = rows[i].firstElementChild.nextElementSibling;
if (!value) continue;
//Z.debug("label: " + label);
//Z.debug("value: " + value.textContent);
switch (label) {
case "Inventor(s):":
cleanNames(ZU.xpathText(value, './span[@id="secondaryInventors"]'),
cleanNames(ZU.xpathText(value, './span[@id="inventors"]'),
function(name) {
newItem.creators.push(
ZU.cleanAuthor(name.replace(/,?\s/, ', '), //format displayed is LAST FIRST MIDDLE, so we add a comma after LAST
@@ -163,14 +157,14 @@ function scrape(doc) {
break;
case "Applicant(s):":
var assignees = [];
cleanNames(ZU.xpathText(value, './span[@id="secondaryApplicants"]'),
cleanNames(ZU.xpathText(value, './span[@id="applicants"]'),
function(name) {
assignees.push(name);
});
newItem.assignee = assignees.join('; ');
break;
case "Classification:":
var CIB = ZU.trimInternal(
var CIB = ZU.trimInternal(
ZU.xpathText(value,
'.//td[preceding-sibling::th[contains(text(),"'
+ L("international", true) + '")]]') || '');
@@ -187,6 +181,9 @@ function scrape(doc) {
case "Page bookmark":
applyValue(newItem, label, value.firstElementChild.href)
break;
case "Application number:":
applyValue(newItem, label, ZU.xpathText(value, './text()[1]'));
break;
default:
applyValue(newItem, label, ZU.trimInternal(value.textContent));
}
@@ -196,9 +193,7 @@ function scrape(doc) {
if (date && (date = date.match(/\d{4}-\d{2}-\d{2}/))) {
newItem.date = date[0];
}

var patentnumber = ZU.xpathText(doc, '//div[@class="application article clearfix"]/h3');
if (patentnumber) newItem.patentNumber = ZU.trimInternal(patentnumber.replace(/Abstract (not available )?(of|for)|Abrégé (non disponible )?pour|(Keine )?Zusammenfassung (verfügbar )?(von|für)/, ""));
newItem.patentNumber = ZU.xpathText(doc, '//span[@class="sel"]');
newItem.abstractNote = ZU.trimInternal(
ZU.xpathText(doc, '//p[@class="printAbstract"]') || '');

@@ -237,27 +232,22 @@ function doWeb(doc, url) {
var testCases = [
{
"type": "web",
"url": "http://worldwide.espacenet.com/searchResults?DB=worldwide.espacenet.com&locale=en_EP&query=cell+phone&ST=singleline&compact=false",
"items": "multiple"
},
{
"type": "web",
"url": "https://worldwide.espacenet.com/publicationDetails/biblio?DB=worldwide.espacenet.com&II=2&ND=3&adjacent=true&locale=en_EP&FT=D&date=20120426&CC=WO&NR=2012054443A1&KC=A1",
"url": "https://worldwide.espacenet.com/data/publicationDetails/biblio?DB=worldwide.espacenet.com&II=2&ND=3&adjacent=true&locale=en_EP&FT=D&date=20120426&CC=WO&NR=2012054443A1&KC=A1",
"items": [
{
"itemType": "patent",
"title": "Electronic Control Glove",
"creators": [
{
"firstName": "Willie",
"firstName": "Willie Lee Jr",
"lastName": "Blount",
"creatorType": "inventor"
}
],
"issueDate": "2012-04-26",
"abstractNote": "Many people active and inactive can't readily control their audio experience without reaching into a pocket or some other location to change a setting or answer the phone. The problem is the lack of convenience and the inaccessibility when the user is riding his motorcycle, skiing, bicycling, jogging, or even walking with winter gloves on, etc. The electronic control glove described here enables enhanced control over electronic devices wirelessly at all times from the user's fingertips. The glove is manufactured with electrical conducive materials along the fingers and the thumb, where contact with the thumb and finger conductive materials creates a closed circuit which is transmitted to a control device on the glove that can then wirelessly transmit messages to remote electronic devices such as cell phones, audio players, garage door openers, military hardware and software, in work environments, and so forth.",
"applicationNumber": "WO2011US56657 20111018",
"assignee": "Blue Infusion Technologies, Llc; Blount, Willie, Lee, Jr",
"assignee": "Blue Infusion Technologies Llc; Blount Willie Lee Jr",
"extra": "CIB: G06F3/033; G09G5/08",
"patentNumber": "WO2012054443 (A1)",
"priorityNumbers": "US20100394879P 20101020 ; US20100394013P 20101018",
@@ -275,7 +265,7 @@ var testCases = [
},
{
"type": "web",
"url": "https://worldwide.espacenet.com/publicationDetails/biblio?DB=worldwide.espacenet.com&II=4&ND=3&adjacent=true&locale=en_EP&FT=D&date=20120426&CC=US&NR=2012101951A1&KC=A1",
"url": "https://worldwide.espacenet.com/data/publicationDetails/biblio?DB=worldwide.espacenet.com&II=4&ND=3&adjacent=true&locale=en_EP&FT=D&date=20120426&CC=US&NR=2012101951A1&KC=A1",
"items": [
{
"itemType": "patent",
@@ -318,24 +308,24 @@ var testCases = [
},
{
"type": "web",
"url": "https://worldwide.espacenet.com/publicationDetails/biblio?locale=de_EP&II=9&FT=D&CC=AU&DB=EPODOC&NR=2814389A&date=19890601&ND=3&KC=A&adjacent=true",
"url": "https://worldwide.espacenet.com/data/publicationDetails/biblio?locale=de_EP&II=9&FT=D&CC=AU&DB=EPODOC&NR=2814389A&date=19890601&ND=3&KC=A&adjacent=true",
"items": [
{
"itemType": "patent",
"title": "Eswl Employing Non-Focused Spherical-Sector Shock Waves",
"creators": [
{
"firstName": "S. Filler",
"lastName": "William",
"firstName": "William S.",
"lastName": "Filler",
"creatorType": "inventor"
}
],
"issueDate": "1989-06-01",
"abstractNote": "Un tube de choc de secteur conique (202) génère un secteur d'ondes de choc sphériques, divergentes, classiques qui émanent radialement d'une source ponctuelle effective d'une manière non focalisante mais hautement directionnelle. Un front de compression (208) ayant un rayon de courbure égal à sa séparation par rapport au sommet du tube de choc de secteur définit le bord d'attaque d'un ''choc de coiffe'' (306) d'une intensité que l'on peut prédire et commander de manière précise. Un front de raréfaction de fuite (314) du choc de coiffe (306) est défini par la diffraction provoquée par le bord (312) du tube (202) de choc de secteur. Le front de raréfaction (314) érode progressivement le choc de coiffe (306) lorsque celui-ci est projeté vers le calcul cible (128) définissant la largeur et la durée du choc de coiffe de propagation (306).; Le choc de coiffe (306) pulvérise uniformément le calcul cible (128) en appliquant une quantité relativement petite d'ondes de choc par rapport au nombre plus grand (d'un ordre de grandeur deux fois plus grand) de chocs utilisés dans des procédés connus par ondes de choc ellipsoïdales focalisées.",
"applicationNumber": "AU19890028143D 19891108",
"assignee": "William S. Filler",
"applicationNumber": "AU19890028143 19891108",
"assignee": "William S Filler",
"extra": "CIB: A61B17/22; A61B17/225; G10K11/32; G10K15/04; (IPC1-7): A61B17/22",
"patentNumber": "AU2814389 (A) Zusammenfassung der korrespondierenden Patentschrift WO8904147 (A1)",
"patentNumber": "AU2814389 (A)",
"priorityNumbers": "US19870118325 19871109",
"url": "https://worldwide.espacenet.com/publicationDetails/biblio?FT=D&date=19890601&DB=EPODOC&locale=de_EP&CC=AU&NR=2814389A&KC=A&ND=4",
"attachments": [
@@ -351,24 +341,24 @@ var testCases = [
},
{
"type": "web",
"url": "https://worldwide.espacenet.com/publicationDetails/biblio?locale=fr_EP&II=9&FT=D&CC=AU&DB=EPODOC&NR=2814389A&date=19890601&ND=3&KC=A&adjacent=true",
"url": "https://worldwide.espacenet.com/data/publicationDetails/biblio?locale=fr_EP&II=9&FT=D&CC=AU&DB=EPODOC&NR=2814389A&date=19890601&ND=3&KC=A&adjacent=true",
"items": [
{
"itemType": "patent",
"title": "Eswl Employing Non-Focused Spherical-Sector Shock Waves",
"creators": [
{
"firstName": "S. Filler",
"lastName": "William",
"firstName": "William S.",
"lastName": "Filler",
"creatorType": "inventor"
}
],
"issueDate": "1989-06-01",
"abstractNote": "Un tube de choc de secteur conique (202) génère un secteur d'ondes de choc sphériques, divergentes, classiques qui émanent radialement d'une source ponctuelle effective d'une manière non focalisante mais hautement directionnelle. Un front de compression (208) ayant un rayon de courbure égal à sa séparation par rapport au sommet du tube de choc de secteur définit le bord d'attaque d'un ''choc de coiffe'' (306) d'une intensité que l'on peut prédire et commander de manière précise. Un front de raréfaction de fuite (314) du choc de coiffe (306) est défini par la diffraction provoquée par le bord (312) du tube (202) de choc de secteur. Le front de raréfaction (314) érode progressivement le choc de coiffe (306) lorsque celui-ci est projeté vers le calcul cible (128) définissant la largeur et la durée du choc de coiffe de propagation (306).; Le choc de coiffe (306) pulvérise uniformément le calcul cible (128) en appliquant une quantité relativement petite d'ondes de choc par rapport au nombre plus grand (d'un ordre de grandeur deux fois plus grand) de chocs utilisés dans des procédés connus par ondes de choc ellipsoïdales focalisées.",
"applicationNumber": "AU19890028143D 19891108",
"assignee": "William S. Filler",
"applicationNumber": "AU19890028143 19891108",
"assignee": "William S Filler",
"extra": "CIB: A61B17/22; A61B17/225; G10K11/32; G10K15/04; (IPC1-7): A61B17/22",
"patentNumber": "AU2814389 (A) Abrégé du document correspondant WO8904147 (A1)",
"patentNumber": "AU2814389 (A)",
"priorityNumbers": "US19870118325 19871109",
"url": "https://worldwide.espacenet.com/publicationDetails/biblio?FT=D&date=19890601&DB=EPODOC&locale=fr_EP&CC=AU&NR=2814389A&KC=A&ND=4",
"attachments": [
@@ -383,4 +373,4 @@ var testCases = [
]
}
]
/** END TEST CASES **/
/** END TEST CASES **/

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