/* global QUnit, testLog */ (function() { const Convertor = OpenSeadragon.convertor, T_A = "__TEST__typeA", T_B = "__TEST__typeB", T_C = "__TEST__typeC", T_D = "__TEST__typeD", T_E = "__TEST__typeE"; let viewer; //we override jobs: remember original function const originalJob = OpenSeadragon.ImageLoader.prototype.addJob; //event awaiting function waitFor(predicate) { const time = setInterval(() => { if (predicate()) { clearInterval(time); } }, 20); } const sleep = (ms) => new Promise((resolve) => setTimeout(resolve, ms)); // Replace conversion with our own system and test: __TEST__ prefix must be used, otherwise // other tests will interfere let typeAtoB = 0, typeBtoC = 0, typeCtoA = 0, typeDtoA = 0, typeCtoE = 0; //set all same costs to get easy testing, know which path will be taken Convertor.learn(T_A, T_B, (tile, x) => { typeAtoB++; return x+1; }); // Costly conversion to C simulation Convertor.learn(T_B, T_C, async (tile, x) => { typeBtoC++; await sleep(5); return x+1; }); Convertor.learn(T_C, T_A, (tile, x) => { typeCtoA++; return x+1; }); Convertor.learn(T_D, T_A, (tile, x) => { typeDtoA++; return x+1; }); Convertor.learn(T_C, T_E, (tile, x) => { typeCtoE++; return x+1; }); //'Copy constructors' let copyA = 0, copyB = 0, copyC = 0, copyD = 0, copyE = 0; //also learn destructors Convertor.learn(T_A, T_A,(tile, x) => { copyA++; return x+1; }); Convertor.learn(T_B, T_B,(tile, x) => { copyB++; return x+1; }); Convertor.learn(T_C, T_C,(tile, x) => { copyC++; return x-1; }); Convertor.learn(T_D, T_D,(tile, x) => { copyD++; return x+1; }); Convertor.learn(T_E, T_E,(tile, x) => { copyE++; return x+1; }); let destroyA = 0, destroyB = 0, destroyC = 0, destroyD = 0, destroyE = 0; //also learn destructors Convertor.learnDestroy(T_A, () => { destroyA++; }); Convertor.learnDestroy(T_B, () => { destroyB++; }); Convertor.learnDestroy(T_C, () => { destroyC++; }); Convertor.learnDestroy(T_D, () => { destroyD++; }); Convertor.learnDestroy(T_E, () => { destroyE++; }); OpenSeadragon.TestCacheDrawer = class extends OpenSeadragon.DrawerBase { constructor(opts) { super(opts); this.testEvents = new OpenSeadragon.EventSource(); } getType() { return "test-cache-drawer"; } // Make test use private cache get defaultOptions() { return { usePrivateCache: true }; } getSupportedDataFormats() { return [T_C, T_E]; } static isSupported() { return true; } _createDrawingElement() { return document.createElement("div"); } draw(tiledImages) { for (let image of tiledImages) { const tilesDoDraw = image.getTilesToDraw().map(info => info.tile); for (let tile of tilesDoDraw) { const data = this.getDataToDraw(tile); this.testEvents.raiseEvent('test-tile', { tile: tile, dataToDraw: data, }); } } } canRotate() { return true; } destroy() { //noop } setImageSmoothingEnabled(imageSmoothingEnabled){ //noop } drawDebuggingRect(rect) { //noop } clear(){ //noop } } OpenSeadragon.EmptyTestT_ATileSource = class extends OpenSeadragon.TileSource { supports( data, url ){ return data && data.isTestSource; } configure( data, url, postData ){ return { width: 512, /* width *required */ height: 512, /* height *required */ tileSize: 128, /* tileSize *required */ tileOverlap: 0, /* tileOverlap *required */ minLevel: 0, /* minLevel */ maxLevel: 3, /* maxLevel */ tilesUrl: "", /* tilesUrl */ fileFormat: "", /* fileFormat */ displayRects: null /* displayRects */ } } getTileUrl(level, x, y) { return String(level); //treat each tile on level same to introduce cache overlaps } downloadTileStart(context) { context.finish(0, null, T_A); } } // ---------- QUnit.module('TileCache', { beforeEach: function () { $('
').appendTo("#qunit-fixture"); testLog.reset(); viewer = OpenSeadragon({ id: 'example', prefixUrl: '/build/openseadragon/images/', maxImageCacheCount: 200, //should be enough to fit test inside the cache springStiffness: 100, // Faster animation = faster tests drawer: 'test-cache-drawer', }); OpenSeadragon.ImageLoader.prototype.addJob = originalJob; // Reset counters typeAtoB = 0, typeBtoC = 0, typeCtoA = 0, typeDtoA = 0, typeCtoE = 0; copyA = 0, copyB = 0, copyC = 0, copyD = 0, copyE = 0; destroyA = 0, destroyB = 0, destroyC = 0, destroyD = 0, destroyE = 0; }, afterEach: function () { if (viewer && viewer.close) { viewer.close(); } viewer = null; } }); // ---------- QUnit.test('basics', function(assert) { const done = assert.async(); const fakeViewer = MockSeadragon.getViewer( MockSeadragon.getDrawer({ // tile in safe mode inspects the supported formats upon cache set getSupportedDataFormats() { return [T_A, T_B, T_C, T_D, T_E]; } }) ); const fakeTiledImage0 = MockSeadragon.getTiledImage(fakeViewer); const fakeTiledImage1 = MockSeadragon.getTiledImage(fakeViewer); const tile0 = MockSeadragon.getTile('foo.jpg', fakeTiledImage0); const tile1 = MockSeadragon.getTile('foo.jpg', fakeTiledImage1); const cache = new OpenSeadragon.TileCache(); assert.equal(cache.numTilesLoaded(), 0, 'no tiles to begin with'); tile0._caches[tile0.cacheKey] = cache.cacheTile({ tile: tile0, tiledImage: fakeTiledImage0, data: 3, dataType: T_A }); tile0._cacheSize++; assert.equal(cache.numTilesLoaded(), 1, 'tile count after cache'); tile1._caches[tile1.cacheKey] = cache.cacheTile({ tile: tile1, tiledImage: fakeTiledImage1, data: 55, dataType: T_B }); tile1._cacheSize++; assert.equal(cache.numTilesLoaded(), 2, 'tile count after second cache'); cache.clearTilesFor(fakeTiledImage0); assert.equal(cache.numTilesLoaded(), 1, 'tile count after first clear'); cache.clearTilesFor(fakeTiledImage1); assert.equal(cache.numTilesLoaded(), 0, 'tile count after second clear'); done(); }); // ---------- QUnit.test('maxImageCacheCount', function(assert) { const done = assert.async(); const fakeViewer = MockSeadragon.getViewer( MockSeadragon.getDrawer({ // tile in safe mode inspects the supported formats upon cache set getSupportedDataFormats() { return [T_A, T_B, T_C, T_D, T_E]; } }) ); const fakeTiledImage0 = MockSeadragon.getTiledImage(fakeViewer); const tile0 = MockSeadragon.getTile('different.jpg', fakeTiledImage0); const tile1 = MockSeadragon.getTile('same.jpg', fakeTiledImage0); const tile2 = MockSeadragon.getTile('same.jpg', fakeTiledImage0); const cache = new OpenSeadragon.TileCache({ maxImageCacheCount: 1 }); assert.equal(cache.numTilesLoaded(), 0, 'no tiles to begin with'); tile0._caches[tile0.cacheKey] = cache.cacheTile({ tile: tile0, tiledImage: fakeTiledImage0, data: 55, dataType: T_B }); tile0._cacheSize++; assert.equal(cache.numTilesLoaded(), 1, 'tile count after add'); tile1._caches[tile1.cacheKey] = cache.cacheTile({ tile: tile1, tiledImage: fakeTiledImage0, data: 55, dataType: T_B }); tile1._cacheSize++; assert.equal(cache.numTilesLoaded(), 1, 'tile count after add of second image'); tile2._caches[tile2.cacheKey] = cache.cacheTile({ tile: tile2, tiledImage: fakeTiledImage0, data: 55, dataType: T_B }); tile2._cacheSize++; assert.equal(cache.numTilesLoaded(), 2, 'tile count after additional same image'); done(); }); //Tile API and cache interaction QUnit.test('Tile: basic rendering & test setup', function(test) { const done = test.async(); const tileCache = viewer.tileCache; const drawer = viewer.drawer; let testTileCalled = false; drawer.testEvents.addHandler('test-tile', e => { testTileCalled = true; test.ok(e.dataToDraw, "Tile data is ready to be drawn"); }); viewer.addHandler('open', async () => { await viewer.waitForFinishedJobsForTest(); await sleep(1); // necessary to make space for a draw call test.ok(viewer.world.getItemAt(0).source instanceof OpenSeadragon.EmptyTestT_ATileSource, "Tests are done with empty test source type T_A."); test.ok(viewer.world.getItemAt(1).source instanceof OpenSeadragon.EmptyTestT_ATileSource, "Tests are done with empty test source type T_A."); test.ok(testTileCalled, "Drawer tested at least one tile."); test.ok(typeAtoB > 1, "At least one conversion was triggered."); test.equal(typeAtoB, typeBtoC, "A->B = B->C, since we need to move all data to T_C for the drawer."); for (let tile of tileCache._tilesLoaded) { const cache = tile.getCache(); test.equal(cache.type, T_A, "Cache data was not affected, the drawer uses internal cache."); const internalCache = cache.getDataForRendering(drawer, tile); test.equal(internalCache.type, T_C, "Conversion A->C ready, since there is no way to get to T_E."); test.ok(internalCache.loaded, "Internal cache ready."); } done(); }); viewer.open([ {isTestSource: true}, {isTestSource: true}, ]); }); QUnit.test('Tile & Invalidation API: basic conversion & preprocessing', function(test) { const done = test.async(); const tileCache = viewer.tileCache; const drawer = viewer.drawer; let testTileCalled = false; let _currentTestVal = undefined; let previousTestValue = undefined; drawer.testEvents.addHandler('test-tile', e => { test.ok(e.dataToDraw, "Tile data is ready to be drawn"); if (_currentTestVal !== undefined) { testTileCalled = true; test.equal(e.dataToDraw, _currentTestVal, "Value is correct on the drawn data."); } }); function testDrawingRoutine(value) { _currentTestVal = value; viewer.world.needsDraw(); viewer.world.draw(); previousTestValue = value; _currentTestVal = undefined; } viewer.addHandler('open', async () => { await viewer.waitForFinishedJobsForTest(); await sleep(1); // necessary to make space for a draw call // Test simple data set -> creates main cache let testHandler = async e => { // data comes in as T_A test.equal(typeDtoA, 0, "No conversion needed to get type A."); test.equal(typeCtoA, 0, "No conversion needed to get type A."); const data = await e.getData(T_A); test.equal(data, 1, "Copy: creation of a working cache."); e.tile.__TEST_PROCESSED = true; // Test value 2 since we set T_C no need to convert await e.setData(2, T_C); test.notOk(e.outdated(), "Event is still valid."); }; viewer.addHandler('tile-invalidated', testHandler); await viewer.world.requestInvalidate(true); await sleep(1); // necessary to make space for internal updates testDrawingRoutine(2); //test for each level only single cache was processed const processedLevels = {}; for (let tile of tileCache._tilesLoaded) { const level = tile.level; if (tile.__TEST_PROCESSED) { test.ok(!processedLevels[level], "Only single tile processed per level."); processedLevels[level] = true; delete tile.__TEST_PROCESSED; } const origCache = tile.getCache(tile.originalCacheKey); test.equal(origCache.type, T_A, "Original cache data was not affected, the drawer uses internal cache."); test.equal(origCache.data, 0, "Original cache data was not affected, the drawer uses internal cache."); const cache = tile.getCache(); test.equal(cache.type, T_C, "Main Cache Updated (suite 1)"); test.equal(cache.data, previousTestValue, "Main Cache Updated (suite 1)"); const internalCache = cache.getDataForRendering(drawer, tile); test.equal(T_C, internalCache.type, "Conversion A->C ready, since there is no way to get to T_E."); test.ok(internalCache.loaded, "Internal cache ready."); } // Test that basic scenario with reset data false starts from the main cache data of previous round const modificationConstant = 50; viewer.removeHandler('tile-invalidated', testHandler); testHandler = async e => { const data = await e.getData(T_B); test.equal(data, previousTestValue + 2, "C -> A -> B conversion happened."); await e.setData(data + modificationConstant, T_B); console.log(data + modificationConstant); test.notOk(e.outdated(), "Event is still valid."); }; console.log(previousTestValue, modificationConstant) viewer.addHandler('tile-invalidated', testHandler); await viewer.world.requestInvalidate(false); await sleep(1); // necessary to make space for a draw call // We set data as TB - there is T_C -> T_A -> T_B -> T_C conversion round let newValue = previousTestValue + modificationConstant + 3; testDrawingRoutine(newValue); newValue--; // intenrla cache performed +1 conversion, but here we have main cache with one step less for (let tile of tileCache._tilesLoaded) { const cache = tile.getCache(); test.equal(cache.type, T_B, "Main Cache Updated (suite 2)."); test.equal(cache.data, newValue, "Main Cache Updated (suite 2)."); } // Now test whether data reset works, value 1 -> copy perfomed due to internal cache cration viewer.removeHandler('tile-invalidated', testHandler); testHandler = async e => { const data = await e.getData(T_B); test.equal(data, 1, "Copy: creation of a working cache."); await e.setData(-8, T_E); e.resetData(); }; viewer.addHandler('tile-invalidated', testHandler); await viewer.world.requestInvalidate(true); await sleep(1); // necessary to make space for a draw call testDrawingRoutine(2); // Value +2 rendering from original data for (let tile of tileCache._tilesLoaded) { const origCache = tile.getCache(tile.originalCacheKey); test.ok(tile.getCache() === origCache, "Main cache is now original cache."); } // Now force main cache creation that differs viewer.removeHandler('tile-invalidated', testHandler); testHandler = async e => { await e.setData(41, T_B); }; viewer.addHandler('tile-invalidated', testHandler); await viewer.world.requestInvalidate(true); // Now test whether data reset works, even with non-original data viewer.removeHandler('tile-invalidated', testHandler); testHandler = async e => { const data = await e.getData(T_B); test.equal(data, 42, "Copy: 41 + 1."); await e.setData(data, T_E); e.resetData(); }; viewer.addHandler('tile-invalidated', testHandler); await viewer.world.requestInvalidate(false); await sleep(1); // necessary to make space for a draw call testDrawingRoutine(42); for (let tile of tileCache._tilesLoaded) { const origCache = tile.getCache(tile.originalCacheKey); test.equal(origCache.type, T_A, "Original cache data was not affected, the drawer uses main cache even after refresh."); test.equal(origCache.data, 0, "Original cache data was not affected, the drawer uses main cache even after refresh."); } test.ok(testTileCalled, "Drawer tested at least one tile."); done(); }); viewer.open([ {isTestSource: true}, {isTestSource: true}, ]); }); //Tile API and cache interaction QUnit.test('Tile API Cache Interaction', function(test) { const done = test.async(); const fakeViewer = MockSeadragon.getViewer( MockSeadragon.getDrawer({ // tile in safe mode inspects the supported formats upon cache set getSupportedDataFormats() { return [T_A, T_B, T_C, T_D, T_E]; } }) ); const tileCache = fakeViewer.tileCache; const fakeTiledImage0 = MockSeadragon.getTiledImage(fakeViewer); const fakeTiledImage1 = MockSeadragon.getTiledImage(fakeViewer); //load data const tile00 = MockSeadragon.getTile('foo.jpg', fakeTiledImage0); tile00.addCache(tile00.cacheKey, 0, T_A, false, false); const tile01 = MockSeadragon.getTile('foo2.jpg', fakeTiledImage0); tile01.addCache(tile01.cacheKey, 0, T_B, false, false); const tile10 = MockSeadragon.getTile('foo3.jpg', fakeTiledImage1); tile10.addCache(tile10.cacheKey, 0, T_C, false, false); const tile11 = MockSeadragon.getTile('foo3.jpg', fakeTiledImage1); tile11.addCache(tile11.cacheKey, 0, T_C, false, false); const tile12 = MockSeadragon.getTile('foo.jpg', fakeTiledImage1); tile12.addCache(tile12.cacheKey, 0, T_A, false, false); //test set/get data in async env (async function() { test.equal(tileCache.numTilesLoaded(), 5, "We loaded 5 tiles"); test.equal(tileCache.numCachesLoaded(), 3, "We loaded 3 cache objects - three different urls"); const c00 = tile00.getCache(tile00.cacheKey); const c12 = tile12.getCache(tile12.cacheKey); //now test multi-cache within tile const theTileKey = tile00.cacheKey; tile00.addCache(tile00.buildDistinctMainCacheKey(), 42, T_E, true, false); test.notEqual(tile00.cacheKey, tile00.originalCacheKey, "New cache rendered."); //now add artifically another record tile00.addCache("my_custom_cache", 128, T_C); test.equal(tileCache.numTilesLoaded(), 5, "We still loaded only 5 tiles."); test.equal(tileCache.numCachesLoaded(), 5, "The cache has now 5 items (two new added already)."); test.equal(c00.getTileCount(), 2, "The cache still has only two tiles attached."); test.equal(tile00.getCacheSize(), 3, "The tile has three cache objects (original data, main cache & custom."); //related tile not affected test.equal(tile12.cacheKey, tile12.originalCacheKey, "Original cache change not reflected on shared caches."); test.equal(tile12.originalCacheKey, theTileKey, "Original cache key also preserved."); test.equal(c12.getTileCount(), 2, "The original data cache still has only two tiles attached."); //add and delete cache nothing changes (+1 destroy T_C) tile00.addCache("my_custom_cache2", 128, T_C); tile00.removeCache("my_custom_cache2"); test.equal(tileCache.numTilesLoaded(), 5, "We still loaded only 5 tiles."); test.equal(tileCache.numCachesLoaded(), 5, "The cache has now 5 items."); test.equal(tile00.getCacheSize(), 3, "The tile has three cache objects."); //delete cache as a zombie (+0 destroy) tile00.addCache("my_custom_cache2", 17, T_D); //direct access shoes correct value although we set key! const myCustomCache2Data = tile00.getCache("my_custom_cache2").data; test.equal(myCustomCache2Data, 17, "Previously defined cache does not intervene."); test.equal(tileCache.numCachesLoaded(), 6, "The cache size is 6."); //keep zombie tile00.removeCache("my_custom_cache2", false); test.equal(tileCache.numCachesLoaded(), 6, "The cache is 5 + 1 zombie, no change."); test.equal(tile00.getCacheSize(), 3, "The tile has three cache objects."); test.equal(tileCache._zombiesLoadedCount, 1, "One zombie."); //revive zombie tile01.addCache("my_custom_cache2", 18, T_D); const myCustomCache2OtherData = tile01.getCache("my_custom_cache2").data; test.equal(myCustomCache2OtherData, myCustomCache2Data, "Caches are equal because revived."); test.equal(tileCache._cachesLoadedCount, 6, "Zombie revived, original state restored."); test.equal(tileCache._zombiesLoadedCount, 0, "No zombies."); //again, keep zombie tile01.removeCache("my_custom_cache2", false); //first create additional cache so zombie is not the youngest tile01.addCache("some weird cache", 11, T_A); test.ok(tile01.cacheKey === tile01.originalCacheKey, "Custom cache does not touch tile cache keys."); //insertion aadditional cache clears the zombie first although it is not the youngest one test.equal(tileCache.numCachesLoaded(), 7, "The cache has now 7 items."); test.equal(tileCache._cachesLoadedCount, 6, "New cache created -> 5+1."); test.equal(tileCache._zombiesLoadedCount, 1, "One zombie remains."); //Test CAP tileCache._maxCacheItemCount = 7; // Zombie destroyed before other caches (+1 destroy T_D) tile12.addCache("someKey", 43, T_B); test.equal(tileCache.numCachesLoaded(), 7, "The cache has now 7 items."); test.equal(tileCache._zombiesLoadedCount, 0, "One zombie sacrificed, preferred over living cache."); test.notOk([tile00, tile01, tile10, tile11, tile12].find(x => !x.loaded), "All tiles sill loaded since zombie was sacrificed."); // test destructors called as expected test.equal(destroyA, 0, "No destructors for A called."); test.equal(destroyB, 0, "No destructors for B called."); test.equal(destroyC, 1, "One destruction for C called."); test.equal(destroyD, 1, "One destruction for D called."); test.equal(destroyE, 0, "No destructors for E called."); //try to revive zombie will fail: the zombie was deleted, we will find new vaue there tile01.addCache("my_custom_cache2", -849613, T_C); const myCustomCache2RecreatedData = tile01.getCache("my_custom_cache2").data; test.notEqual(myCustomCache2RecreatedData, myCustomCache2Data, "Caches are not equal because zombie was killed."); test.equal(myCustomCache2RecreatedData, -849613, "Cache data is actually as set to 18."); test.equal(tileCache.numCachesLoaded(), 7, "The cache has still 7 items."); // some tile has been selected as a sacrifice since we triggered cap control test.ok([tile00, tile01, tile10, tile11, tile12].find(x => !x.loaded), "One tile has been sacrificed."); done(); })(); }); QUnit.test('Zombie Cache', function(test) { const done = test.async(); //test jobs by coverage: fail if cached coverage not fully re-stored without jobs let jobCounter = 0, coverage = undefined; OpenSeadragon.ImageLoader.prototype.addJob = function (options) { jobCounter++; if (coverage) { //old coverage of previous tiled image: if loaded, fail --> should be in cache const coverageItem = coverage[options.tile.level][options.tile.x][options.tile.y]; test.ok(!coverageItem, "Attempt to add job for tile that should be already in memory."); } return originalJob.call(this, options); }; let tilesFinished = 0; const tileCounter = function (event) {tilesFinished++;} const openHandler = function(event) { event.item.allowZombieCache(true); viewer.world.removeHandler('add-item', openHandler); test.ok(jobCounter === 0, 'Initial state, no images loaded'); waitFor(() => { if (tilesFinished === jobCounter && event.item._fullyLoaded) { coverage = $.extend(true, {}, event.item.coverage); viewer.world.removeAll(); return true; } return false; }); }; let jobsAfterRemoval = 0; const removalHandler = function (event) { viewer.world.removeHandler('remove-item', removalHandler); test.ok(jobCounter > 0, 'Tiled image removed after 100 ms, should load some images.'); jobsAfterRemoval = jobCounter; viewer.world.addHandler('add-item', reopenHandler); viewer.addTiledImage({ tileSource: '/test/data/testpattern.dzi' }); } const reopenHandler = function (event) { event.item.allowZombieCache(true); viewer.removeHandler('add-item', reopenHandler); test.equal(jobCounter, jobsAfterRemoval, 'Reopening image does not fetch any tiles imemdiatelly.'); waitFor(() => { if (event.item._fullyLoaded) { viewer.removeHandler('tile-unloaded', unloadTileHandler); viewer.removeHandler('tile-loaded', tileCounter); coverage = undefined; //console test needs here explicit removal to finish correctly OpenSeadragon.ImageLoader.prototype.addJob = originalJob; done(); return true; } return false; }); }; const unloadTileHandler = function (event) { test.equal(event.destroyed, false, "Tile unload event should not delete with zombies!"); } viewer.world.addHandler('add-item', openHandler); viewer.world.addHandler('remove-item', removalHandler); viewer.addHandler('tile-unloaded', unloadTileHandler); viewer.addHandler('tile-loaded', tileCounter); viewer.open('/test/data/testpattern.dzi'); }); QUnit.test('Zombie Cache Replace Item', function(test) { const done = test.async(); let jobCounter = 0, coverage = undefined; OpenSeadragon.ImageLoader.prototype.addJob = function (options) { jobCounter++; if (coverage) { //old coverage of previous tiled image: if loaded, fail --> should be in cache const coverageItem = coverage[options.tile.level][options.tile.x][options.tile.y]; if (!coverageItem) { console.warn(coverage, coverage[options.tile.level][options.tile.x], options.tile); } test.ok(!coverageItem, "Attempt to add job for tile data that was previously loaded."); } return originalJob.call(this, options); }; let tilesFinished = 0; const tileCounter = function (event) {tilesFinished++;} const openHandler = function(event) { event.item.allowZombieCache(true); viewer.world.removeHandler('add-item', openHandler); viewer.world.addHandler('add-item', reopenHandler); waitFor(() => { if (tilesFinished === jobCounter && event.item._fullyLoaded) { coverage = $.extend(true, {}, event.item.coverage); viewer.addTiledImage({ tileSource: '/test/data/testpattern.dzi', index: 0, replace: true }); return true; } return false; }); }; const reopenHandler = function (event) { event.item.allowZombieCache(true); viewer.removeHandler('add-item', reopenHandler); waitFor(() => { if (event.item._fullyLoaded) { viewer.removeHandler('tile-unloaded', unloadTileHandler); viewer.removeHandler('tile-loaded', tileCounter); //console test needs here explicit removal to finish correctly OpenSeadragon.ImageLoader.prototype.addJob = originalJob; done(); return true; } return false; }); }; const unloadTileHandler = function (event) { test.equal(event.destroyed, false, "Tile unload event should not delete with zombies!"); } viewer.world.addHandler('add-item', openHandler); viewer.addHandler('tile-unloaded', unloadTileHandler); viewer.addHandler('tile-loaded', tileCounter); viewer.open('/test/data/testpattern.dzi'); }); })();