"use strict"; describe("Zotero.CollectionTree", function() { var win, zp, cv, userLibraryID; before(function* () { win = yield loadZoteroPane(); zp = win.ZoteroPane; cv = zp.collectionsView; userLibraryID = Zotero.Libraries.userLibraryID; }); beforeEach(function () { // TODO: Add a selectCollection() function and select a collection instead? return selectLibrary(win); }) after(function () { win.close(); }); describe("#refresh()", function () { it("should show Duplicate Items and Unfiled Items by default and shouldn't show Retracted Items", function* () { Zotero.Prefs.clear('duplicateLibraries'); Zotero.Prefs.clear('unfiledLibraries'); Zotero.Prefs.clear('retractedLibraries'); yield cv.refresh(); assert.ok(cv.getRowIndexByID("D" + userLibraryID)); assert.ok(cv.getRowIndexByID("U" + userLibraryID)); assert.isFalse(cv.getRowIndexByID("R" + userLibraryID)); }); it("shouldn't show virtual collections if hidden", function* () { Zotero.Prefs.set('duplicateLibraries', `{"${userLibraryID}": false}`); Zotero.Prefs.set('unfiledLibraries', `{"${userLibraryID}": false}`); Zotero.Prefs.set('retractedLibraries', `{"${userLibraryID}": false}`); yield cv.refresh(); assert.isFalse(cv.getRowIndexByID("D" + userLibraryID)); assert.isFalse(cv.getRowIndexByID("U" + userLibraryID)); assert.isFalse(cv.getRowIndexByID("R" + userLibraryID)); }); it("should maintain open state of group", function* () { var group1 = yield createGroup(); var group2 = yield createGroup(); var group1Row = cv.getRowIndexByID(group1.treeViewID); var group2Row = cv.getRowIndexByID(group2.treeViewID); // Open group 1 and close group 2 if (!cv.isContainerOpen(group1Row)) { yield cv.toggleOpenState(group1Row); } if (cv.isContainerOpen(group2Row)) { yield cv.toggleOpenState(group2Row); } cv._saveOpenStates(); // #_saveOpenStates is debounced yield Zotero.Promise.delay(500); group1Row = cv.getRowIndexByID(group1.treeViewID); group2Row = cv.getRowIndexByID(group2.treeViewID); yield cv.refresh(); // Group rows shouldn't have changed assert.equal(cv.getRowIndexByID(group1.treeViewID), group1Row); assert.equal(cv.getRowIndexByID(group2.treeViewID), group2Row); // Group open states shouldn't have changed assert.isTrue(cv.isContainerOpen(group1Row)); assert.isFalse(cv.isContainerOpen(group2Row)); }); it("should update associated item tree view", function* () { var collection = yield createDataObject('collection'); var item = yield createDataObject('item', { collections: [collection.id] }); yield cv.reload(); yield cv.selectCollection(collection.id); yield cv.selectItem(item.id); }); }); describe("collapse/expand", function () { it("should close and open My Library repeatedly", function* () { yield cv.selectLibrary(userLibraryID); var row = cv.selection.focused; cv.collapseLibrary(userLibraryID); assert.equal(cv.selection.focused, row); assert.isFalse(cv.isContainerOpen(row)); yield cv.expandLibrary(userLibraryID); assert.equal(cv.selection.focused, row); assert.ok(cv.isContainerOpen(row)); cv.collapseLibrary(userLibraryID); assert.equal(cv.selection.focused, row); assert.isFalse(cv.isContainerOpen(row)); yield cv.expandLibrary(userLibraryID); assert.equal(cv.selection.focused, row); assert.ok(cv.isContainerOpen(row)); }) }) describe("#expandLibrary()", function () { var libraryRow, col1, col2, col3; before(function* () { yield cv.selectLibrary(userLibraryID); libraryRow = cv.selection.focused; }); beforeEach(function* () { // My Library // - A // - B // - C col1 = yield createDataObject('collection'); col2 = yield createDataObject('collection', { parentID: col1.id }); col3 = yield createDataObject('collection', { parentID: col2.id }); }); it("should open a library and respect stored container state", function* () { // Collapse B yield cv.toggleOpenState(cv.getRowIndexByID(col2.treeViewID)); cv._saveOpenStates(); // #_saveOpenStates is debounced yield Zotero.Promise.delay(500); // Close and reopen library yield cv.toggleOpenState(libraryRow); yield cv.expandLibrary(userLibraryID); assert.isTrue(cv.isContainerOpen(libraryRow)); assert.isTrue(cv.isContainerOpen(cv.getRowIndexByID(col1.treeViewID))); assert.isFalse(cv.isContainerOpen(cv.getRowIndexByID(col2.treeViewID))); }); it("should open a library and all subcollections in recursive mode", function* () { yield cv.toggleOpenState(cv.getRowIndexByID(col2.treeViewID)); cv._saveOpenStates(); // #_saveOpenStates is debounced yield Zotero.Promise.delay(500); // Close and reopen library yield cv.toggleOpenState(libraryRow); yield cv.expandLibrary(userLibraryID, true); assert.isTrue(cv.isContainerOpen(cv.getRowIndexByID(col1.treeViewID))); assert.isTrue(cv.isContainerOpen(cv.getRowIndexByID(col2.treeViewID))); }); it("should open a group and show top-level collections", function* () { var group = yield createGroup(); var libraryID = group.libraryID; var col1 = yield createDataObject('collection', { libraryID }); var col2 = yield createDataObject('collection', { libraryID }); var col3 = yield createDataObject('collection', { libraryID }); var col4 = yield createDataObject('collection', { libraryID, parentID: col1.id }); var col5 = yield createDataObject('collection', { libraryID, parentID: col4.id }); // Close everything yield Zotero.Promise.all([col4, col1, group] .map(o => cv.toggleOpenState(cv.getRowIndexByID(o.treeViewID), false))); yield cv.expandLibrary(libraryID); assert.isNumber(cv.getRowIndexByID(col1.treeViewID)); assert.isNumber(cv.getRowIndexByID(col2.treeViewID)); assert.isNumber(cv.getRowIndexByID(col3.treeViewID)); assert.isFalse(cv.getRowIndexByID(col4.treeViewID)); assert.isFalse(cv.getRowIndexByID(col5.treeViewID)); }); }); describe("#expandToCollection()", function () { it("should expand a collection to a subcollection", function* () { var collection1 = yield createDataObject('collection'); var collection2 = createUnsavedDataObject('collection'); collection2.parentID = collection1.id; yield collection2.saveTx({ skipSelect: true }); var row = cv.getRowIndexByID("C" + collection1.id); assert.isFalse(cv.isContainerOpen(row)); yield cv.expandToCollection(collection2.id); cv.forceUpdate(); // Make sure parent row position hasn't changed assert.equal(cv.getRowIndexByID("C" + collection1.id), row); // Parent should have been opened assert.isTrue(cv.isContainerOpen(row)); }) }) describe("#selectByID()", function () { it("should select the trash", function* () { yield cv.selectByID("T1"); var row = cv.selection.focused; var treeRow = cv.getRow(row); assert.ok(treeRow.isTrash()); assert.equal(treeRow.ref.libraryID, userLibraryID); }) }) describe("#selectWait()", function () { it("shouldn't hang if row is already selected", function* () { var row = cv.getRowIndexByID("T" + userLibraryID); yield cv.selectWait(row); yield Zotero.Promise.delay(50); yield cv.selectWait(row); }) }) describe("#notify()", function () { it("should select a new collection", function* () { // Create collection var collection = new Zotero.Collection; collection.name = "Select new collection"; var id = yield collection.saveTx(); // New collection should be selected var selected = cv.getSelectedCollection(true); assert.equal(selected, id); }); it("shouldn't select a new collection if skipNotifier is passed", function* () { // Create collection with skipNotifier flag var collection = new Zotero.Collection; collection.name = "No select on skipNotifier"; var id = yield collection.saveTx({ skipNotifier: true }); // Library should still be selected assert.equal(cv.getSelectedLibraryID(), userLibraryID); }); it("shouldn't select a new collection if skipSelect is passed", function* () { // Create collection with skipSelect flag var collection = new Zotero.Collection; collection.name = "No select on skipSelect"; var id = yield collection.saveTx({ skipSelect: true }); // Library should still be selected assert.equal(cv.getSelectedLibraryID(), userLibraryID); }); it("shouldn't select a modified collection", function* () { // Create collection var collection = new Zotero.Collection; collection.name = "No select on modify"; var id = yield collection.saveTx(); yield selectLibrary(win); collection.name = "No select on modify 2"; yield collection.saveTx(); // Modified collection should not be selected assert.equal(cv.getSelectedLibraryID(), userLibraryID); }); it("should maintain selection on a selected modified collection", function* () { // Create collection var collection = new Zotero.Collection; collection.name = "Reselect on modify"; var id = yield collection.saveTx(); var selected = cv.getSelectedCollection(true); assert.equal(selected, id); collection.name = "Reselect on modify 2"; yield collection.saveTx(); // Modified collection should still be selected selected = cv.getSelectedCollection(true); assert.equal(selected, id); }); describe(".deleted selection", function () { for (let objectType of ['collection', 'search']) { it(`should select next row when ${objectType} is moved to trash`, async function () { var ran = Zotero.Utilities.randomString(); var o1 = await createDataObject(objectType, { name: ran + "AAA" }); var o2 = await createDataObject(objectType, { name: ran + "BBB" }); var o3 = await createDataObject(objectType, { name: ran + "CCC" }); await cv.selectByID(o2.treeViewID); o2.deleted = true; await o2.saveTx(); assert.equal(zp.getCollectionTreeRow().ref.id, o3.id); }); it(`should maintain selection on ${objectType} when row above is moved to trash`, async function () { var ran = Zotero.Utilities.randomString(); var o1 = await createDataObject(objectType, { name: ran + "AAA" }); var o2 = await createDataObject(objectType, { name: ran + "BBB" }); var o3 = await createDataObject(objectType, { name: ran + "CCC" }); assert.equal(zp.getCollectionTreeRow().ref.id, o3.id); o1.deleted = true; await o1.saveTx(); assert.equal(zp.getCollectionTreeRow().ref.id, o3.id); }); it(`should maintain selection on trash when ${objectType} is restored`, async function () { var o = await createDataObject(objectType, { deleted: true }); await cv.selectByID("T1"); o.deleted = false; await o.saveTx(); assert.isTrue(zp.getCollectionTreeRow().isTrash()); // Row should have been added back assert.isAbove(cv.getRowIndexByID(o.treeViewID), 0); }); } }); for (let objectType of ['collection', 'search']) { it(`should select next row when ${objectType} is erased`, async function () { var ran = Zotero.Utilities.randomString(); var o1 = await createDataObject(objectType, { name: ran + "AAA" }); var o2 = await createDataObject(objectType, { name: ran + "BBB" }); var o3 = await createDataObject(objectType, { name: ran + "CCC" }); await cv.selectByID(o2.treeViewID); await o2.eraseTx(); assert.equal(zp.getCollectionTreeRow().ref.id, o3.id); }); } it("should update the editability of the current view", function* () { var group = yield createGroup({ editable: false, filesEditable: false }); yield cv.selectLibrary(group.libraryID); yield waitForItemsLoad(win); assert.isFalse(zp.getCollectionTreeRow().editable); var cmd = win.document.getElementById('cmd_zotero_newStandaloneNote'); assert.isTrue(cmd.getAttribute('disabled') == 'true'); group.editable = true; yield group.saveTx(); assert.isTrue(zp.getCollectionTreeRow().editable); assert.isFalse(cmd.getAttribute('disabled') == 'true'); }); it("should re-sort a modified collection", function* () { var prefix = Zotero.Utilities.randomString() + " "; var collectionA = yield createDataObject('collection', { name: prefix + "A" }); var collectionB = yield createDataObject('collection', { name: prefix + "B" }); var aRow = cv.getRowIndexByID("C" + collectionA.id); var aRowOriginal = aRow; var bRow = cv.getRowIndexByID("C" + collectionB.id); assert.equal(bRow, aRow + 1); collectionA.name = prefix + "C"; yield collectionA.saveTx(); var aRow = cv.getRowIndexByID("C" + collectionA.id); var bRow = cv.getRowIndexByID("C" + collectionB.id); assert.equal(bRow, aRowOriginal); assert.equal(aRow, bRow + 1); }) it("should re-sort a modified search", function* () { var prefix = Zotero.Utilities.randomString() + " "; var searchA = yield createDataObject('search', { name: prefix + "A" }); var searchB = yield createDataObject('search', { name: prefix + "B" }); var aRow = cv.getRowIndexByID("S" + searchA.id); var aRowOriginal = aRow; var bRow = cv.getRowIndexByID("S" + searchB.id); assert.equal(bRow, aRow + 1); searchA.name = prefix + "C"; yield searchA.saveTx(); var aRow = cv.getRowIndexByID("S" + searchA.id); var bRow = cv.getRowIndexByID("S" + searchB.id); assert.equal(bRow, aRowOriginal); assert.equal(aRow, bRow + 1); }) it("should add collection after parent's subcollection and before non-sibling", function* () { var c0 = yield createDataObject('collection', { name: "Test" }); var rootRow = cv.getRowIndexByID(c0.treeViewID); var c1 = yield createDataObject('collection', { name: "1", parentID: c0.id }); var c2 = yield createDataObject('collection', { name: "2", parentID: c0.id }); var c3 = yield createDataObject('collection', { name: "3", parentID: c1.id }); var c4 = yield createDataObject('collection', { name: "4", parentID: c3.id }); var c5 = yield createDataObject('collection', { name: "5", parentID: c1.id }); assert.equal(cv.getRowIndexByID(c1.treeViewID), rootRow + 1); assert.isAbove(cv.getRowIndexByID(c1.treeViewID), cv.getRowIndexByID(c0.treeViewID)); assert.isAbove(cv.getRowIndexByID(c2.treeViewID), cv.getRowIndexByID(c0.treeViewID)); assert.isAbove(cv.getRowIndexByID(c3.treeViewID), cv.getRowIndexByID(c1.treeViewID)); assert.isAbove(cv.getRowIndexByID(c5.treeViewID), cv.getRowIndexByID(c1.treeViewID)); assert.isBelow(cv.getRowIndexByID(c5.treeViewID), cv.getRowIndexByID(c2.treeViewID)); assert.equal(cv.getRowIndexByID(c4.treeViewID), cv.getRowIndexByID(c3.treeViewID) + 1); }); it("should add multiple collections", function* () { var col1, col2; yield Zotero.DB.executeTransaction(async function () { col1 = createUnsavedDataObject('collection'); col2 = createUnsavedDataObject('collection'); await col1.save(); await col2.save(); }); var aRow = cv.getRowIndexByID("C" + col1.id); var bRow = cv.getRowIndexByID("C" + col2.id); assert.isAbove(aRow, 0); assert.isAbove(bRow, 0); // skipSelect is implied for multiple collections, so library should still be selected assert.equal(cv.selection.focused, 0); }); it("shouldn't refresh the items list when a collection is modified", function* () { var collection = yield createDataObject('collection'); yield waitForItemsLoad(win); var itemsView = zp.itemsView; collection.name = "New Name"; yield collection.saveTx(); yield waitForItemsLoad(win); assert.equal(zp.itemsView, itemsView); }) it("should add a saved search after collections", function* () { var collection = new Zotero.Collection; collection.name = "Test"; var collectionID = yield collection.saveTx(); var search = new Zotero.Search; search.name = "A Test Search"; search.addCondition('title', 'contains', 'test'); var searchID = yield search.saveTx(); var collectionRow = cv._rowMap["C" + collectionID]; var searchRow = cv._rowMap["S" + searchID]; var duplicatesRow = cv._rowMap["D" + userLibraryID]; var unfiledRow = cv._rowMap["U" + userLibraryID]; assert.isAbove(searchRow, collectionRow); // If there's a duplicates row or an unfiled row, add before those. // Otherwise, add before the trash if (duplicatesRow !== undefined) { assert.isBelow(searchRow, duplicatesRow); } else if (unfiledRow !== undefined) { assert.isBelow(searchRow, unfiledRow); } else { var trashRow = cv._rowMap["T" + userLibraryID]; assert.isBelow(searchRow, trashRow); } }) it("shouldn't select a new group", function* () { var group = yield createGroup(); // Library should still be selected assert.equal(cv.getSelectedLibraryID(), userLibraryID); }) it("should remove a group and all children", function* () { // Make sure Group Libraries separator and header exist already, // since otherwise they'll interfere with the count yield getGroup(); var originalRowCount = cv._rows.length; var group = yield createGroup(); yield createDataObject('collection', { libraryID: group.libraryID }); var c = yield createDataObject('collection', { libraryID: group.libraryID }); yield createDataObject('collection', { libraryID: group.libraryID, parentID: c.id }); yield createDataObject('collection', { libraryID: group.libraryID }); yield createDataObject('collection', { libraryID: group.libraryID }); // Group, collections, Duplicates, Unfiled, and trash assert.equal(cv._rows.length, originalRowCount + 9); // Select group yield cv.selectLibrary(group.libraryID); yield waitForItemsLoad(win); var spy = sinon.spy(cv, "refresh"); try { yield group.eraseTx(); assert.equal(cv._rows.length, originalRowCount); // Make sure the tree wasn't refreshed sinon.assert.notCalled(spy); } finally { spy.restore(); } }) it("should select a new feed", function* () { var feed = yield createFeed(); // Feed should be selected assert.equal(cv.getSelectedLibraryID(), feed.id); }); it("shouldn't select a new feed with skipSelect: true", function* () { var feed = yield createFeed({ saveOptions: { skipSelect: true } }); // Library should still be selected assert.equal(cv.getSelectedLibraryID(), userLibraryID); }); it("should remove deleted feed", function* () { var feed = yield createFeed(); yield cv.selectLibrary(feed.libraryID); waitForDialog(); var id = feed.treeViewID; let promise = waitForCollectionTree(win); yield win.ZoteroPane.deleteSelectedCollection(); yield promise; assert.isFalse(cv.getRowIndexByID(id)) }) it("should not reload tree upon feed update", async function () { var feed = await createFeed(); await cv.selectLibrary(Zotero.Libraries.userLibraryID); try { var reloadSpy = sinon.spy(cv, 'reload'); // A set of notifier calls when a feed update is running Zotero.debug(feed.id, 2); await Zotero.Notifier.trigger('statusChanged', 'feed', feed.id); await Zotero.Notifier.trigger('modify', 'feed', feed.id); await Zotero.Notifier.trigger('unreadCountUpdated', 'feed', feed.id); await Zotero.Notifier.trigger('statusChanged', 'feed', feed.id); assert.isFalse(reloadSpy.called); } finally { reloadSpy.restore(); } }); }); describe("#selectItem()", function () { it("should switch to library root if item isn't in collection", async function () { var item = await createDataObject('item'); var collection = await createDataObject('collection'); Zotero.debug(zp.itemsView._rows); await cv.selectItem(item.id); await waitForItemsLoad(win); assert.equal(cv.selection.focused, 0); assert.sameMembers(zp.itemsView.getSelectedItems(), [item]); }); }); describe("#selectItems()", function () { it("should switch to library root if at least one item isn't in the current collection", async function () { var collection = await createDataObject('collection'); var item1 = await createDataObject('item', { collections: [collection.id] }); var item2 = await createDataObject('item'); await cv.selectItems([item1.id, item2.id]); await waitForItemsLoad(win); assert.equal(cv.selection.focused, 0); assert.sameMembers(zp.itemsView.getSelectedItems(true), [item1.id, item2.id]); }); }); describe("#onDrop()", function () { /** * Simulate a drag and drop * * @param {String} type - 'item' or 'collection' * @param {String|Object} targetRow - Tree row id (e.g., "L123"), or { row, orient } * @param {Integer[]} collectionIDs * @param {Promise} [promise] - If a promise is provided, it will be waited for and its * value returned after the drag. Otherwise, an 'add' event will be waited for, and * an object with 'ids' and 'extraData' will be returned. */ var onDrop = Zotero.Promise.coroutine(function* (objectType, targetRow, ids, promise, action = 'copy') { if (typeof targetRow == 'string') { var row = cv.getRowIndexByID(targetRow); var orient = 0; } else { var { row, orient } = targetRow; } Zotero.DragDrop.currentDragSource = objectType == "item" && zp.itemsView.collectionTreeRow; if (!promise) { promise = waitForNotifierEvent("add", objectType); } yield cv.onDrop({ persist: () => 0, target: {ownerDocument: {defaultView: win}}, dataTransfer: { dropEffect: action, effectAllowed: action, types: { contains: function (type) { return type == `zotero/${objectType}`; } }, getData: function (type) { if (type == `zotero/${objectType}`) { return ids.join(","); } } } }, row); // Add observer to wait for add var result = yield promise; Zotero.DragDrop.currentDragSource = null; return result; }); var canDrop = Zotero.Promise.coroutine(function* (type, targetRowID, ids) { var row = cv.getRowIndexByID(targetRowID); var dt = { dropEffect: 'copy', effectAllowed: 'copy', types: { contains: function (type) { return type == `zotero/${type}`; } }, getData: function (type) { if (type == `zotero/${type}`) { return ids.join(","); } } }; var canDrop = cv.canDropCheck(row, 0, dt); if (canDrop) { canDrop = yield cv.canDropCheckAsync(row, 0, dt); } return canDrop; }); describe("with items", function () { it("should add an item to a collection", function* () { var collection = yield createDataObject('collection', false, { skipSelect: true }); var item = yield createDataObject('item', false, { skipSelect: true }); // Add observer to wait for collection add var deferred = Zotero.Promise.defer(); var observerID = Zotero.Notifier.registerObserver({ notify: function (event, type, ids, extraData) { if (type == 'collection-item' && event == 'add' && ids[0] == collection.id + "-" + item.id) { setTimeout(function () { deferred.resolve(); }); } } }, 'collection-item', 'test'); yield onDrop('item', 'C' + collection.id, [item.id], deferred.promise); Zotero.Notifier.unregisterObserver(observerID); yield cv.selectCollection(collection.id); yield waitForItemsLoad(win); var itemsView = win.ZoteroPane.itemsView; assert.equal(itemsView.rowCount, 1); var treeRow = itemsView.getRow(0); assert.equal(treeRow.ref.id, item.id); }) it("should move an item from one collection to another", function* () { var collection1 = yield createDataObject('collection'); yield waitForItemsLoad(win); var collection2 = yield createDataObject('collection', false, { skipSelect: true }); var item = yield createDataObject('item', { collections: [collection1.id] }); // Add observer to wait for collection add var deferred = Zotero.Promise.defer(); var observerID = Zotero.Notifier.registerObserver({ notify: function (event, type, ids, extraData) { if (type == 'collection-item' && event == 'add' && ids[0] == collection2.id + "-" + item.id) { setTimeout(function () { deferred.resolve(); }); } } }, 'collection-item', 'test'); let promise = zp.itemsView.waitForSelect(); yield onDrop('item', 'C' + collection2.id, [item.id], deferred.promise, 'move'); yield promise; Zotero.Notifier.unregisterObserver(observerID); // Source collection should be empty assert.equal(zp.itemsView.rowCount, 0); yield cv.selectCollection(collection2.id); yield waitForItemsLoad(win); // Target collection should have item assert.equal(zp.itemsView.rowCount, 1); var treeRow = zp.itemsView.getRow(0); assert.equal(treeRow.ref.id, item.id); }); describe("My Publications", function () { function getItemModifyPromise(item) { // Add observer to wait for item modification return new Zotero.Promise((resolve) => { var observerID = Zotero.Notifier.registerObserver({ notify: function (event, type, ids, extraData) { if (type == 'item' && event == 'modify' && ids[0] == item.id) { setTimeout(resolve); Zotero.Notifier.unregisterObserver(observerID); } } }, 'item', 'test'); }); } function acceptItemsWithoutFiles(win) { var doc = win.document; doc.getElementById('confirm-authorship-checkbox').checked = true; var wizard = doc.getElementById('publications-dialog-wizard'); if (!doc.getElementById('include-files').disabled) { throw new Error("Include Files checkbox isn't disabled"); } wizard.getButton('next').click(); } function acceptItemsWithFiles(win) { var doc = win.document; doc.getElementById('include-files').checked = true; doc.getElementById('confirm-authorship-checkbox').checked = true; var wizard = doc.getElementById('publications-dialog-wizard'); if (doc.getElementById('include-files').disabled) { throw new Error("Include Files checkbox shouldn't be disabled"); } wizard.getButton('next').click(); wizard.getButton('next').click(); } it("should add an item to My Publications", async function () { // Remove other items in My Publications var s = new Zotero.Search(); s.addCondition('libraryID', 'is', Zotero.Libraries.userLibraryID); s.addCondition('publications', 'true'); var ids = await s.search(); await Zotero.Items.erase(ids); var item = await createDataObject('item', false, { skipSelect: true }); var libraryID = item.libraryID; var itemModifyPromise = getItemModifyPromise(item); var winPromise = waitForWindow('chrome://zotero/content/publicationsDialog.xhtml') var dropPromise = onDrop('item', 'P' + libraryID, [item.id], itemModifyPromise); acceptItemsWithoutFiles(await winPromise); await dropPromise; // Select publications and check for item await cv.selectByID("P" + libraryID); await waitForItemsLoad(win); var itemsView = win.ZoteroPane.itemsView assert.equal(itemsView.rowCount, 1); var treeRow = itemsView.getRow(0); assert.equal(treeRow.ref.id, item.id); }); it("should add an item with a file attachment to My Publications", async function () { var item = await createDataObject('item', false, { skipSelect: true }); var attachment = await importFileAttachment('test.png', { parentItemID: item.id }); var libraryID = item.libraryID; var itemModifyPromise = getItemModifyPromise(item); var winPromise = waitForWindow('chrome://zotero/content/publicationsDialog.xhtml') var dropPromise = onDrop('item', 'P' + libraryID, [item.id], itemModifyPromise); acceptItemsWithFiles(await winPromise); await dropPromise; assert.isTrue(item.inPublications); // File attachment should be in My Publications assert.isTrue(attachment.inPublications); }); it("should add an item with a linked URL attachment to My Publications", async function () { var item = await createDataObject('item', false, { skipSelect: true }); var attachment = await Zotero.Attachments.linkFromURL({ parentItemID: item.id, title: 'Test', url: 'http://127.0.0.1/', contentType: 'text/html' }); var libraryID = item.libraryID; var itemModifyPromise = getItemModifyPromise(item); var winPromise = waitForWindow('chrome://zotero/content/publicationsDialog.xhtml') var dropPromise = onDrop('item', 'P' + libraryID, [item.id], itemModifyPromise); acceptItemsWithoutFiles(await winPromise); await dropPromise; assert.isTrue(item.inPublications); // Link attachment should be in My Publications assert.isTrue(attachment.inPublications); }); it("shouldn't add linked file attachment to My Publications", async function () { var item = await createDataObject('item', false, { skipSelect: true }); var attachment = await Zotero.Attachments.linkFromFile({ parentItemID: item.id, title: 'Test', file: OS.Path.join(getTestDataDirectory().path, 'test.png'), contentType: 'image/png' }); var libraryID = item.libraryID; var itemModifyPromise = getItemModifyPromise(item); var winPromise = waitForWindow('chrome://zotero/content/publicationsDialog.xhtml') var dropPromise = onDrop('item', 'P' + libraryID, [item.id], itemModifyPromise); acceptItemsWithoutFiles(await winPromise); await dropPromise; assert.isTrue(item.inPublications); // Linked URL attachment shouldn't be in My Publications assert.isFalse(attachment.inPublications); }); }); it("should copy an item with a PDF attachment containing annotations to a group", async function () { await Zotero.Users.setCurrentUserID(1); await Zotero.Users.setName(1, 'Name'); var group = await createGroup(); var item = await createDataObject('item', false, { skipSelect: true }); var file = getTestDataDirectory(); file.append('test.pdf'); var attachment = await Zotero.Attachments.importFromFile({ file, parentItemID: item.id }); var annotation = await createAnnotation('highlight', attachment); var ids = (await onDrop('item', 'L' + group.libraryID, [item.id])).ids; await cv.selectLibrary(group.libraryID); await waitForItemsLoad(win); // Check parent var itemsView = win.ZoteroPane.itemsView; assert.equal(itemsView.rowCount, 1); var treeRow = itemsView.getRow(0); assert.equal(treeRow.ref.libraryID, group.libraryID); assert.equal(treeRow.ref.id, ids[0]); // New item should link back to original var linked = await item.getLinkedItem(group.libraryID); assert.equal(linked.id, treeRow.ref.id); // Check attachment assert.isTrue(itemsView.isContainer(0)); itemsView.toggleOpenState(0); assert.equal(itemsView.rowCount, 2); treeRow = itemsView.getRow(1); assert.equal(treeRow.ref.id, ids[1]); // New attachment should link back to original linked = await attachment.getLinkedItem(group.libraryID); assert.equal(linked.id, treeRow.ref.id); // Check annotation var groupAttachment = Zotero.Items.get(treeRow.ref.id); var annotations = groupAttachment.getAnnotations(); assert.lengthOf(annotations, 1); return group.eraseTx(); }); it("should copy a group item with a PDF attachment containing annotations to the personal library", async function () { await Zotero.Users.setCurrentUserID(1); await Zotero.Users.setName(1, 'Name 1'); await Zotero.Users.setName(12345, 'Name 2'); var group = await createGroup(); await cv.selectLibrary(group.libraryID); var groupItem = await createDataObject('item', { libraryID: group.libraryID }); var file = getTestDataDirectory(); file.append('test.pdf'); var attachment = await Zotero.Attachments.importFromFile({ file, parentItemID: groupItem.id }); var annotation = await createAnnotation('highlight', attachment); await annotation.saveTx(); var ids = (await onDrop('item', 'L1', [groupItem.id])).ids; var newItem = Zotero.Items.get(ids[0]); // Check annotation var newAttachment = Zotero.Items.get(newItem.getAttachments())[0]; var annotations = newAttachment.getAnnotations(); assert.lengthOf(annotations, 1); return group.eraseTx(); }); it("should copy a standalone attachment to a group", async function () { await Zotero.Users.setCurrentUserID(1); await Zotero.Users.setName(1, 'Name 1'); await Zotero.Users.setName(12345, 'Name 2'); var group = await createGroup(); var item = await importPDFAttachment(); var ids = (await onDrop('item', 'L' + group.libraryID, [item.id])).ids; var newItem = Zotero.Items.get(ids[0]); assert.equal(newItem.libraryID, group.libraryID); assert.isTrue(newItem.isPDFAttachment()); return group.eraseTx(); }); it("should not copy an item or its attachment to a group twice", function* () { var group = yield getGroup(); var itemTitle = Zotero.Utilities.randomString(); var item = yield createDataObject('item', false, { skipSelect: true }); var file = getTestDataDirectory(); file.append('test.png'); var attachment = yield Zotero.Attachments.importFromFile({ file: file, parentItemID: item.id }); var attachmentTitle = Zotero.Utilities.randomString(); attachment.setField('title', attachmentTitle); yield attachment.saveTx(); yield onDrop('item', 'L' + group.libraryID, [item.id]); assert.isFalse(yield canDrop('item', 'L' + group.libraryID, [item.id])); }) it("should copy an item from a read-only group to an editable group", async function () { var group1 = await createGroup(); var item = await createDataObject('item', { libraryID: group1.libraryID }); group1.editable = false; await group1.saveTx(); var group2 = await createGroup(); await cv.selectLibrary(group1.libraryID); await waitForItemsLoad(win); await onDrop('item', 'L' + group2.libraryID, [item.id]); assert.isFalse(await item.getLinkedItem(group2.libraryID)); // New collection should link back to original assert.ok(await item.getLinkedItem(group2.libraryID, true)); await group1.eraseTx(); await group2.eraseTx(); }); it("should ignore a linked, trashed item when re-dragging an item to a group", async function () { var group = await getGroup(); var collection = await createDataObject('collection', { libraryID: group.libraryID }); var item = await createDataObject('item', false, { skipSelect: true }); await onDrop('item', 'L' + group.libraryID, [item.id]); var droppedItem = await item.getLinkedItem(group.libraryID); droppedItem.setCollections([collection.id]); droppedItem.deleted = true; await droppedItem.saveTx(); await onDrop('item', 'L' + group.libraryID, [item.id]); var linkedItem = await item.getLinkedItem(group.libraryID); assert.notEqual(linkedItem, droppedItem); assert.isTrue(droppedItem.deleted); }) }) describe("with collections", function () { it("should make a subcollection top-level", function* () { var collection1 = yield createDataObject('collection', { name: "A" }, { skipSelect: true }); var collection2 = yield createDataObject('collection', { name: "C" }, { skipSelect: true }); var collection3 = yield createDataObject('collection', { name: "D" }, { skipSelect: true }); var collection4 = yield createDataObject('collection', { name: "B", parentKey: collection2.key }); var colIndex1 = cv.getRowIndexByID('C' + collection1.id); var colIndex2 = cv.getRowIndexByID('C' + collection2.id); var colIndex3 = cv.getRowIndexByID('C' + collection3.id); var colIndex4 = cv.getRowIndexByID('C' + collection4.id); // Add observer to wait for collection add var deferred = Zotero.Promise.defer(); var observerID = Zotero.Notifier.registerObserver({ notify: function (event, type, ids, extraData) { if (type == 'collection' && event == 'modify' && ids[0] == collection4.id) { setTimeout(function () { deferred.resolve(); }, 50); } } }, 'collection', 'test'); yield onDrop( 'collection', { row: 0, orient: 1 }, [collection4.id], deferred.promise ); Zotero.Notifier.unregisterObserver(observerID); var newColIndex1 = cv.getRowIndexByID('C' + collection1.id); var newColIndex2 = cv.getRowIndexByID('C' + collection2.id); var newColIndex3 = cv.getRowIndexByID('C' + collection3.id); var newColIndex4 = cv.getRowIndexByID('C' + collection4.id); assert.equal(newColIndex1, colIndex1); assert.isBelow(newColIndex4, newColIndex2); assert.isBelow(newColIndex2, newColIndex3); assert.equal(cv.getRow(newColIndex4).level, cv.getRow(newColIndex1).level); }) it("should move a subcollection and its subcollection down under another collection", function* () { var collectionA = yield createDataObject('collection', { name: "A" }, { skipSelect: true }); var collectionB = yield createDataObject('collection', { name: "B", parentKey: collectionA.key }); var collectionC = yield createDataObject('collection', { name: "C", parentKey: collectionB.key }); var collectionD = yield createDataObject('collection', { name: "D" }, { skipSelect: true }); var collectionE = yield createDataObject('collection', { name: "E" }, { skipSelect: true }); var collectionF = yield createDataObject('collection', { name: "F" }, { skipSelect: true }); var collectionG = yield createDataObject('collection', { name: "G", parentKey: collectionD.key }); var collectionH = yield createDataObject('collection', { name: "H", parentKey: collectionG.key }); var colIndexA = cv.getRowIndexByID('C' + collectionA.id); var colIndexB = cv.getRowIndexByID('C' + collectionB.id); var colIndexC = cv.getRowIndexByID('C' + collectionC.id); var colIndexD = cv.getRowIndexByID('C' + collectionD.id); var colIndexE = cv.getRowIndexByID('C' + collectionE.id); var colIndexF = cv.getRowIndexByID('C' + collectionF.id); var colIndexG = cv.getRowIndexByID('C' + collectionG.id); var colIndexH = cv.getRowIndexByID('C' + collectionH.id); yield cv.selectCollection(collectionG.id); // Add observer to wait for collection add var deferred = Zotero.Promise.defer(); var observerID = Zotero.Notifier.registerObserver({ notify: function (event, type, ids, extraData) { if (type == 'collection' && event == 'modify' && ids[0] == collectionG.id) { setTimeout(function () { deferred.resolve(); }, 50); } } }, 'collection', 'test'); yield onDrop( 'collection', { row: colIndexE, orient: 0 }, [collectionG.id], deferred.promise ); Zotero.Notifier.unregisterObserver(observerID); var newColIndexA = cv.getRowIndexByID('C' + collectionA.id); var newColIndexB = cv.getRowIndexByID('C' + collectionB.id); var newColIndexC = cv.getRowIndexByID('C' + collectionC.id); var newColIndexD = cv.getRowIndexByID('C' + collectionD.id); var newColIndexE = cv.getRowIndexByID('C' + collectionE.id); var newColIndexF = cv.getRowIndexByID('C' + collectionF.id); var newColIndexG = cv.getRowIndexByID('C' + collectionG.id); var newColIndexH = cv.getRowIndexByID('C' + collectionH.id); assert.isFalse(cv.isContainerOpen(newColIndexD)); assert.isTrue(cv.isContainerEmpty(newColIndexD)); assert.isTrue(cv.isContainerOpen(newColIndexE)); assert.isFalse(cv.isContainerEmpty(newColIndexE)); assert.equal(newColIndexE, newColIndexG - 1); assert.equal(newColIndexG, newColIndexH - 1); // TODO: Check deeper subcollection open states }) it("should move a subcollection and its subcollection up under another collection", function* () { var collectionA = yield createDataObject('collection', { name: "A" }, { skipSelect: true }); var collectionB = yield createDataObject('collection', { name: "B", parentKey: collectionA.key }); var collectionC = yield createDataObject('collection', { name: "C", parentKey: collectionB.key }); var collectionD = yield createDataObject('collection', { name: "D" }, { skipSelect: true }); var collectionE = yield createDataObject('collection', { name: "E" }, { skipSelect: true }); var collectionF = yield createDataObject('collection', { name: "F" }, { skipSelect: true }); var collectionG = yield createDataObject('collection', { name: "G", parentKey: collectionE.key }); var collectionH = yield createDataObject('collection', { name: "H", parentKey: collectionG.key }); var colIndexA = cv.getRowIndexByID('C' + collectionA.id); var colIndexB = cv.getRowIndexByID('C' + collectionB.id); var colIndexC = cv.getRowIndexByID('C' + collectionC.id); var colIndexD = cv.getRowIndexByID('C' + collectionD.id); var colIndexE = cv.getRowIndexByID('C' + collectionE.id); var colIndexF = cv.getRowIndexByID('C' + collectionF.id); var colIndexG = cv.getRowIndexByID('C' + collectionG.id); var colIndexH = cv.getRowIndexByID('C' + collectionH.id); yield cv.selectCollection(collectionG.id); // Add observer to wait for collection add var deferred = Zotero.Promise.defer(); var observerID = Zotero.Notifier.registerObserver({ notify: function (event, type, ids, extraData) { if (type == 'collection' && event == 'modify' && ids[0] == collectionG.id) { setTimeout(function () { deferred.resolve(); }, 50); } } }, 'collection', 'test'); yield onDrop( 'collection', { row: colIndexD, orient: 0 }, [collectionG.id], deferred.promise ); Zotero.Notifier.unregisterObserver(observerID); var newColIndexA = cv.getRowIndexByID('C' + collectionA.id); var newColIndexB = cv.getRowIndexByID('C' + collectionB.id); var newColIndexC = cv.getRowIndexByID('C' + collectionC.id); var newColIndexD = cv.getRowIndexByID('C' + collectionD.id); var newColIndexE = cv.getRowIndexByID('C' + collectionE.id); var newColIndexF = cv.getRowIndexByID('C' + collectionF.id); var newColIndexG = cv.getRowIndexByID('C' + collectionG.id); var newColIndexH = cv.getRowIndexByID('C' + collectionH.id); assert.isFalse(cv.isContainerOpen(newColIndexE)); assert.isTrue(cv.isContainerEmpty(newColIndexE)); assert.isTrue(cv.isContainerOpen(newColIndexD)); assert.isFalse(cv.isContainerEmpty(newColIndexD)); assert.equal(newColIndexD, newColIndexG - 1); assert.equal(newColIndexG, newColIndexH - 1); // TODO: Check deeper subcollection open states }) it("should copy a collection and its subcollection to another library", async function () { var group = await createGroup(); var collectionA = await createDataObject('collection', { name: "A" }, { skipSelect: true }); var collectionB = await createDataObject('collection', { name: "B", parentKey: collectionA.key }); var itemA = await createDataObject('item', { collections: [collectionA.key] }, { skipSelect: true }); var itemB = await createDataObject('item', { collections: [collectionB.key] }, { skipSelect: true }); await cv.selectCollection(collectionA.id); // Add observer to wait for collection add var deferred = Zotero.Promise.defer(); var observerID = Zotero.Notifier.registerObserver({ notify: function (event, type, ids, extraData) { if (type == 'collection' && event == 'modify' && ids.includes(collectionB.id)) { setTimeout(function () { deferred.resolve(); }, 50); } } }, 'collection', 'test'); await onDrop( 'collection', 'L' + group.libraryID, [collectionA.id], deferred.promise ); Zotero.Notifier.unregisterObserver(observerID); var pred = Zotero.Relations.linkedObjectPredicate; var newCollectionA = await Zotero.URI.getURICollection(collectionA.getRelations()[pred][0]); var newCollectionB = await Zotero.URI.getURICollection(collectionB.getRelations()[pred][0]); var newItemA = await Zotero.URI.getURIItem(itemA.getRelations()[pred][0]); var newItemB = await Zotero.URI.getURIItem(itemB.getRelations()[pred][0]); assert.equal(newCollectionA.libraryID, group.libraryID); assert.equal(newCollectionB.libraryID, group.libraryID); assert.equal(newCollectionB.parentID, newCollectionA.id); assert.equal(newItemA.libraryID, group.libraryID); assert.equal(newItemB.libraryID, group.libraryID); assert.isTrue(newCollectionA.hasItem(newItemA)); assert.isTrue(newCollectionB.hasItem(newItemB)); assert.isFalse(newCollectionA.hasItem(newItemB)); assert.isFalse(newCollectionB.hasItem(newItemA)); }) it("should copy a collection from a read-only group to another group", async function () { var group1 = await createGroup(); var collection = await createDataObject('collection', { libraryID: group1.libraryID }); var item = await createDataObject('item', { libraryID: group1.libraryID, collections: [collection.id] }); group1.editable = false; await group1.saveTx(); var group2 = await createGroup(); await cv.selectCollection(collection.id); await waitForItemsLoad(win); await onDrop('collection', 'L' + group2.libraryID, [collection.id]); assert.isFalse(await collection.getLinkedCollection(group2.libraryID)); // New collection should link back to original assert.ok(await collection.getLinkedCollection(group2.libraryID, true)); assert.isFalse(await item.getLinkedItem(group2.libraryID)); // New item should link back to original assert.ok(await item.getLinkedItem(group2.libraryID, true)); await group1.eraseTx(); await group2.eraseTx(); }); }) describe("with feed items", function () { Components.utils.import("resource://zotero-unit/httpd.js"); const httpdPort = 16214; var httpd; before(async function () { httpd = new HttpServer(); httpd.start(httpdPort); }); after(async function () { await new Promise(resolve => httpd.stop(resolve)); }); it("should add a translated feed item retrieved from a URL", function* () { // Serve the feed entry webpage via localhost const urlPath = "/journalArticle-single.html"; const url = `http://localhost:${httpdPort}` + urlPath; httpd.registerFile( urlPath, Zotero.File.pathToFile(OS.Path.join( getTestDataDirectory().path, 'metadata', 'journalArticle-single.html' )) ); var feed = yield createFeed(); var collection = yield createDataObject('collection', false, { skipSelect: true }); var feedItem = yield createDataObject('feedItem', {libraryID: feed.libraryID}, { skipSelect: true }); feedItem.setField('url', url); yield feedItem.saveTx(); var translateFn = sinon.spy(feedItem, 'translate'); // Add observer to wait for collection add var deferred = Zotero.Promise.defer(); var itemIds; var ids = (yield onDrop('item', 'C' + collection.id, [feedItem.id])).ids; // Check that the translated item was the one that was created after drag var item; yield translateFn.returnValues[0].then(function(i) { item = i; assert.equal(item.id, ids[0]); }); yield cv.selectCollection(collection.id); yield waitForItemsLoad(win); var itemsView = win.ZoteroPane.itemsView; assert.equal(itemsView.rowCount, 1); var treeRow = itemsView.getRow(0); assert.equal(treeRow.ref.id, item.id); }) }) }) describe("Feeds pseudo-library", function () { beforeEach(async function () { for (let feed of Zotero.Feeds.getAll()) { await feed.eraseTx(); } }); it("should contain feed items from all feeds", async function () { let feed1 = await createFeed(); let feed2 = await createFeed(); let feedItem1 = await createDataObject('feedItem', { libraryID: feed1.libraryID }, { skipSelect: true }); let feedItem2 = await createDataObject('feedItem', { libraryID: feed2.libraryID }, { skipSelect: true }); await cv.selectFeeds(); await waitForItemsLoad(win); let itemsView = zp.itemsView; assert.equal(itemsView.rowCount, 2); assert.equal(itemsView.getRow(0).ref.id, feedItem2.id); assert.equal(itemsView.getRow(1).ref.id, feedItem1.id); }); it("should be filterable", async function () { let feed1 = await createFeed(); let feed2 = await createFeed(); let feedItem1 = await createDataObject('feedItem', { libraryID: feed1.libraryID, setTitle: true }, { skipSelect: true }); let feedItem2 = await createDataObject('feedItem', { libraryID: feed2.libraryID, setTitle: true }, { skipSelect: true }); await cv.selectFeeds(); await waitForItemsLoad(win); var quickSearch = win.document.getElementById('zotero-tb-search-textbox'); quickSearch.value = feedItem1.getField('title'); quickSearch.doCommand(); let itemsView = zp.itemsView; await itemsView._refreshPromise; assert.equal(itemsView.rowCount, 1); assert.equal(itemsView.getRow(0).ref.id, feedItem1.id); }); it("should be bold if any feed items are unread", async function () { let feed1 = await createFeed(); let feed2 = await createFeed(); let feedItem1 = await createDataObject('feedItem', { libraryID: feed1.libraryID, setTitle: true }, { skipSelect: true }); let feedItem2 = await createDataObject('feedItem', { libraryID: feed2.libraryID, setTitle: true }, { skipSelect: true }); await feedItem1.toggleRead(true); // Unread count is automatically updated on feed refresh, but we need to do it manually here await feed1.updateUnreadCount(); await feed2.updateUnreadCount(); assert.equal(cv.getRow(cv.getRowIndexByID('F1')).ref.unreadCount, 1); assert.lengthOf(win.document.querySelectorAll('#zotero-collections-tree .row.unread'), 2); }); }); describe("#setFilter()", function () { var collection1, collection2, collection3, collection4, collection5, collection6, collection7, collection8; var search1, search2, feed1, feed2; var allRows = []; let keyboardClick = (key) => { return new KeyboardEvent('keydown', { key: key, code: key, bubbles: true, }); }; before(async function () { // Delete all previously added collections, feeds, searches for (let col of Zotero.Collections.getByLibrary(userLibraryID)) { await col.eraseTx(); } await clearFeeds(); for (let s of Zotero.Searches.getByLibrary(userLibraryID)) { await s.eraseTx(); } // Display the collection search bar win.document.getElementById("zotero-tb-collections-search").click(); // Do not hide the search panel on blur win.document.getElementById("zotero-collections-search").removeEventListener('blur', zp.hideCollectionSearch); feed1 = await createFeed({ name: "feed_1 " }); feed2 = await createFeed({ name: "feed_2" }); collection1 = await createDataObject('collection', { name: "collection_level_one", libraryID: userLibraryID }); collection2 = await createDataObject('collection', { name: "collection_level_two_1", parentID: collection1.id, libraryID: userLibraryID }); collection3 = await createDataObject('collection', { name: "collection_level_two_2", parentID: collection1.id, libraryID: userLibraryID }); collection4 = await createDataObject('collection', { name: "collection_level_three_1", parentID: collection2.id, libraryID: userLibraryID }); collection5 = await createDataObject('collection', { name: "collection_level_three_11", parentID: collection2.id, libraryID: userLibraryID }); collection6 = await createDataObject('collection', { name: "collection_level_one_1", libraryID: userLibraryID }); collection7 = await createDataObject('collection', { name: "collection_level_two_21", parentID: collection6.id, libraryID: userLibraryID }); collection8 = await createDataObject('collection', { name: "collection_level_two_22", parentID: collection6.id, libraryID: userLibraryID }); search1 = await createDataObject('search', { name: "search_1", libraryID: userLibraryID }); search2 = await createDataObject('search', { name: "search_2", libraryID: userLibraryID }); allRows = [feed1, feed2, collection1, collection2, collection3, collection4, collection5, collection6, collection7, collection8, search1, search2]; }); beforeEach(async function () { // Empty filter and let it settle await cv.setFilter(""); }); after(async function () { await cv.setFilter(""); }); for (let type of ['collection', 'search', 'feed']) { // eslint-disable-next-line no-loop-func it(`should show only ${type} matching the filter`, async function () { await cv.setFilter(type); let displayedRowNames = cv._rows.filter(row => row.type == type).map(row => row.getName()); let expectedRowNames = allRows.filter(row => row.name.includes(type)).map(row => row.name); assert.sameMembers(displayedRowNames, expectedRowNames); }); } it('should show non-passing entries whose children pass the filter', async function () { await cv.setFilter("three"); let displayedRowNames = cv._rows.filter(row => row.type == "collection").map(row => row.ref.name); let expectedNames = [ "collection_level_one", "collection_level_two_1", "collection_level_three_1", "collection_level_three_11" ]; assert.sameMembers(displayedRowNames, expectedNames); }); it('should not move focus from selected collection during filtering', async function () { await cv.selectByID("C" + collection5.id); await cv.setFilter("three"); let focusedRow = cv.getRow(cv.selection.focused); assert.equal(focusedRow.id, "C" + collection5.id); await cv.setFilter("two"); focusedRow = cv.getRow(cv.selection.focused); assert.equal(focusedRow.id, "C" + collection5.id); }); it('should collapse collections collapsed before filtering', async function () { // Collapse top level collections 1 and 6 for (let c of [collection1, collection6]) { let index = cv.getRowIndexByID("C" + c.id); let row = cv.getRow(index); if (row.isOpen) { await cv.toggleOpenState(index); } } await cv.setFilter(collection5.name); // Collection 1 and 2 have a matching child, so they are opened let colOneRow = cv.getRow(cv.getRowIndexByID("C" + collection1.id)); assert.isTrue(colOneRow.isOpen); let colTwoRow = cv.getRow(cv.getRowIndexByID("C" + collection2.id)); assert.isTrue(colTwoRow.isOpen); // Collection 6 has no matches, it is filtered out let colSixRowIndex = cv.getRowIndexByID("C" + collection6.id); assert.isFalse(colSixRowIndex); // Empty the filter await cv.setFilter(""); // Collection 1 and 6 should remain collapsed as before filtering colOneRow = cv.getRow(cv.getRowIndexByID("C" + collection1.id)); assert.isFalse(colOneRow.isOpen); let colSixRow = cv.getRow(cv.getRowIndexByID("C" + collection6.id)); assert.isFalse(colSixRow.isOpen); }); for (let type of ['collection', 'search']) { // eslint-disable-next-line no-loop-func it(`should only hide ${type} if it's renamed to not match the filter`, async function () { await cv.setFilter(type); let objectToSelect = type == 'collection' ? collection5 : search2; objectToSelect.name += "_updated"; await objectToSelect.saveTx(); let displayedRowNames = cv._rows.map(row => row.getName()); assert.include(displayedRowNames, objectToSelect.name); objectToSelect.name = "not_matching_filter"; await objectToSelect.saveTx(); displayedRowNames = cv._rows.map(row => row.getName()); assert.notInclude(displayedRowNames, objectToSelect.name); }); } for (let type of ['collection', 'search']) { // eslint-disable-next-line no-loop-func it(`should only add ${type} if its name matches the filter`, async function () { await cv.setFilter(type); let newCollection = await createDataObject(type, { name: `new_${type}`, libraryID: userLibraryID }); let displayedRowNames = cv._rows.map(row => row.ref.name); assert.include(displayedRowNames, newCollection.name); newCollection = await createDataObject(type, { name: `not_passing_${type.substring(1)}`, libraryID: userLibraryID }); displayedRowNames = cv._rows.map(row => row.ref.name); assert.notInclude(displayedRowNames, newCollection.name); }); } it(`should focus selected collection on Enter if it matches filter`, async function () { await cv.selectByID(`C${collection3.id}`); win.document.getElementById("zotero-collections-search").value = "_2"; await cv.setFilter("_2"); win.document.getElementById("zotero-collections-search").dispatchEvent(keyboardClick("Enter")); assert.equal(cv.getSelectedCollection(true), collection3.id); assert.equal(win.document.activeElement.id, 'collection-tree'); }); it(`should focus first matching collection on Enter if selected collection does not match filter`, async function () { await cv.selectByID(`C${collection2.id}`); win.document.getElementById("zotero-collections-search").focus(); win.document.getElementById("zotero-collections-search").value = "_2"; await cv.setFilter("_2"); win.document.getElementById("zotero-collections-search").dispatchEvent(keyboardClick("Enter")); // Wait for the selection to go through await Zotero.Promise.delay(100); assert.equal(cv.getSelectedCollection(true), collection3.id); assert.equal(win.document.activeElement.id, 'collection-tree'); }); it(`should not move focus from collection filter on Enter if no rows pass the filter`, async function () { await cv.selectByID(`C${collection3.id}`); win.document.getElementById("zotero-collections-search").focus(); win.document.getElementById("zotero-collections-search").value = "Not matching anything"; await cv.setFilter("Not matching anything"); win.document.getElementById("zotero-collections-search").dispatchEvent(keyboardClick("Enter")); assert.equal(win.document.activeElement.id, 'zotero-collections-search'); }); it(`should skip context rows on arrow up/down`, async function () { await cv.selectByID(`C${collection2.id}`); await cv.setFilter("_2"); await cv.focusFirstMatchingRow(); // Skip collection6 that does not match on the way up and down for (let col of [collection3, collection7, collection8]) { assert.equal(cv.getSelectedCollection(true), col.id); await cv.focusNextMatchingRow(cv.selection.focused); } await cv.selectByID(`C${collection8.id}`); for (let col of [collection8, collection7, collection3]) { assert.equal(cv.getSelectedCollection(true), col.id); await cv.focusNextMatchingRow(cv.selection.focused, true); } }); it(`should clear filter on Escape from collectionTree`, async function () { await cv.selectByID(`C${collection2.id}`); let colTree = win.document.getElementById('collection-tree'); await cv.setFilter("_2"); cv.focusFirstMatchingRow(); colTree.dispatchEvent(keyboardClick("Escape")); assert.equal(cv._filter, ""); assert.equal(cv.getSelectedCollection(true), collection2.id); }); }); })