/* eslint-disable new-cap */ /* global QUnit, $, Util, testLog */ (function () { var viewer; var VIEWER_ID = "example"; var PREFIX_URL = "/build/openseadragon/images/"; var SPRING_STIFFNESS = 100; // Faster animation = faster tests var EPSILON = 0.0000000001; QUnit.module("viewport", { beforeEach: function () { $('
').appendTo("#qunit-fixture"); testLog.reset(); viewer = OpenSeadragon({ id: VIEWER_ID, prefixUrl: PREFIX_URL, springStiffness: SPRING_STIFFNESS }); }, afterEach: function () { if (viewer){ viewer.destroy(); } viewer = null; } }); // helpers and constants var ZOOM_FACTOR = 2; // the image will be twice as large as the viewer. var VIEWER_PADDING = new OpenSeadragon.Point(0.25, 0.25); var DZI_PATH = '/test/data/testpattern.dzi'; var TALL_PATH = '/test/data/tall.dzi'; var WIDE_PATH = '/test/data/wide.dzi'; var testZoomLevels = [0.1, 0.2, 0.5, 1, 4, 10]; var testPoints = [ new OpenSeadragon.Point(0, 0), new OpenSeadragon.Point(0.001, 0.001), new OpenSeadragon.Point(0.25, 0.5), new OpenSeadragon.Point(0.99, 0.99), new OpenSeadragon.Point(1, 1) ]; var testRects = [ new OpenSeadragon.Rect(0, 0, 0, 0), new OpenSeadragon.Rect(0.001, 0.005, 0.001, 0.003), new OpenSeadragon.Rect(0.25, 0.25, 0.25, 0.25), new OpenSeadragon.Rect(0.999, 0.999, 0.999, 0.999), new OpenSeadragon.Rect(1, 1, 1, 1) ]; // Test helper - a lot of these tests loop through a few possible // values for zoom levels, and reopen the viewer for each iteration. var reopenViewerHelper = function(assert, config) { var done = assert.async(); var expected, level, actual; var i = 0; var openHandler = function(event) { var viewport = viewer.viewport; expected = config.processExpected(level, expected); actual = viewport[config.method](); assert.propEqual( actual, expected, "Test " + config.method + " with zoom level of " + level + ". Expected : " + expected + ", got " + actual ); i++; if (i < testZoomLevels.length) { level = expected = testZoomLevels[i]; var viewerConfig = { id: VIEWER_ID, prefixUrl: PREFIX_URL, springStiffness: SPRING_STIFFNESS }; if (viewer){ viewer.destroy(); } viewerConfig[config.property] = level; viewer = OpenSeadragon(viewerConfig); viewer.addOnceHandler('open', openHandler); viewer.open(DZI_PATH); } else { done(); } }; level = expected = testZoomLevels[i]; var viewerConfig = { id: VIEWER_ID, prefixUrl: PREFIX_URL, springStiffness: SPRING_STIFFNESS }; viewerConfig[config.property] = level; if (viewer){ viewer.destroy(); } viewer = OpenSeadragon(viewerConfig); viewer.addOnceHandler('open', openHandler); viewer.open(DZI_PATH); }; // Test helper - a lot of these tests loop through a test data // array and test different values. This helper does not reopen the viewer. var loopingTestHelper = function(assert, config) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.zoomTo(ZOOM_FACTOR, null, true); var orig, expected, actual; for (var i = 0; i < config.testArray.length; i++){ orig = config.getOrig(config.testArray[i], viewport); expected = config.getExpected(orig, viewport); actual = viewport[config.method](orig); if(config.assert) { config.assert( assert, actual, expected, 1e-15, "Correctly converted coordinates " + orig ); } else { assert.propEqual( actual, expected, "Correctly converted coordinates " + orig ); } } done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }; function assertPointsEquals(assert, actual, expected, variance, message) { Util.assertPointsEquals(assert, actual, expected, variance, message); } // Tests start here. QUnit.test('getContainerSize', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.zoomTo(ZOOM_FACTOR, null, true); assert.propEqual(viewport.getContainerSize(), new OpenSeadragon.Point(500, 500), "Test container size"); done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('getAspectRatio', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.zoomTo(ZOOM_FACTOR, null, true); assert.equal(viewport.getAspectRatio(), 1, "Test aspect ratio"); done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('getMinZoomDefault', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; assert.equal(viewport.getMinZoom(), 0.9, "Test default min zoom level"); done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('getMaxZoomDefault', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; assert.equal(viewport.getMaxZoom(), 2.2, "Test default max zoom level"); done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('getMinZoom', function(assert) { reopenViewerHelper(assert, { property: 'minZoomLevel', method: 'getMinZoom', processExpected: function(level, expected){ if(level === 0) { // 0 means use the default expected = 0.9; } else if(level > 1) { expected = 1; // min zoom won't go bigger than 1. } return expected; } }); }); QUnit.test('getMaxZoom', function(assert) { reopenViewerHelper(assert, { property: 'maxZoomLevel', method: 'getMaxZoom', processExpected: function(level, expected) { if(level === 0){ // 0 means use the default expected = 2.2; } else if(level < 1){ expected = 1; // max zoom won't go smaller than 1. } return expected; } }); }); QUnit.test('getHomeBounds', function(assert) { reopenViewerHelper(assert, { property: 'defaultZoomLevel', method: 'getHomeBounds', processExpected: function(level, expected) { var sideLength = 1.0 / viewer.defaultZoomLevel; // it's a square in this case var position = 0.5 - (sideLength / 2.0); return new OpenSeadragon.Rect(position, position, sideLength, sideLength); } }); }); QUnit.test('getHomeBoundsNoRotate with rotation', function(assert) { var done = assert.async(); function openHandler() { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.setRotation(-675, true); Util.assertRectangleEquals( assert, viewport.getHomeBoundsNoRotate(), new OpenSeadragon.Rect( (1 - Math.sqrt(2)) / 2, (1 - Math.sqrt(2)) / 2, Math.sqrt(2), Math.sqrt(2)), 0.00000001, "Test getHomeBoundsNoRotate with degrees = -675"); done(); } viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('getHomeBounds with rotation', function(assert) { var done = assert.async(); function openHandler() { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.setRotation(-675, true); Util.assertRectangleEquals( assert, viewport.getHomeBounds(), new OpenSeadragon.Rect( 0.5, -0.5, Math.sqrt(2), Math.sqrt(2), 45), 0.00000001, "Test getHomeBounds with degrees = -675"); done(); } viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('getHomeBoundsWithMultiImages', function(assert) { var done = assert.async(); function openHandler() { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; Util.assertRectangleEquals( assert, new OpenSeadragon.Rect(0, 0, 4, 4), viewport.getHomeBounds(), 0.00000001, "Test getHomeBoundsWithMultiImages"); done(); } viewer.addHandler('open', openHandler); viewer.open([{ tileSource: DZI_PATH, x: 0, y: 0, width: 2 }, { tileSource: DZI_PATH, x: 3, y: 3, width: 1 }]); }); QUnit.test('getHomeBoundsWithMultiImagesAndClipping', function(assert) { var done = assert.async(); function openHandler() { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; Util.assertRectangleEquals( assert, new OpenSeadragon.Rect(1, 1, 4, 4), viewport.getHomeBounds(), 0.00000001, "Test getHomeBoundsWithMultiImagesAndClipping"); done(); } viewer.addHandler('open', openHandler); viewer.open([{ tileSource: DZI_PATH, x: 0, y: 0, width: 2, clip: new OpenSeadragon.Rect(500, 500, 500, 500) }, { tileSource: DZI_PATH, x: 4, y: 4, width: 1 }]); }); QUnit.test('getHomeZoom', function(assert) { reopenViewerHelper(assert, { property: 'defaultZoomLevel', method: 'getHomeZoom', processExpected: function(level, expected){ // If the default zoom level is set to 0, then we expect the home zoom to be 1. if(expected === 0){ expected = 1; } return expected; } }); }); // I don't use the helper for this one because it sets a couple more // properties that would need special casing. QUnit.test('getHomeZoomWithHomeFillsViewer', function(assert) { var done = assert.async(); var i = 0; var openHandler = function(event) { var viewport = viewer.viewport; viewport.zoomTo(ZOOM_FACTOR, null, true); assert.equal( viewport.getHomeZoom(), testZoomLevels[i], "Test getHomeZoom with homeFillsViewer = true and default zoom level of " + testZoomLevels[i] ); i++; if (i < testZoomLevels.length) { if (viewer){ viewer.destroy(); } viewer = OpenSeadragon({ id: VIEWER_ID, prefixUrl: PREFIX_URL, springStiffness: SPRING_STIFFNESS, defaultZoomLevel: testZoomLevels[i], homeFillsViewer: true }); viewer.addOnceHandler('open', openHandler); viewer.open(TALL_PATH); // use a different image for homeFillsViewer } else { done(); } }; if (viewer){ viewer.destroy(); } viewer = OpenSeadragon({ id: VIEWER_ID, prefixUrl: PREFIX_URL, springStiffness: SPRING_STIFFNESS, defaultZoomLevel: testZoomLevels[i], homeFillsViewer: true }); viewer.addOnceHandler('open', openHandler); viewer.open(TALL_PATH); // use a different image for homeFillsViewer }); QUnit.test('resetContentSize', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; for(var i = 0; i < testRects.length; i++){ var rect = testRects[i].times(viewport.getContainerSize()); viewport.resetContentSize(rect.getSize()); assert.propEqual( viewport._contentSize, rect.getSize(), "Reset content size correctly." ); } done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('goHome', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; // zoom/pan somewhere viewport.zoomTo(ZOOM_FACTOR, true); viewport.goHome(true); assert.propEqual( viewport.getBounds(), viewport.getHomeBounds(), "Went home." ); done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('ensureVisible', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; // zoom/pan so that the image is out of view viewport.zoomTo(ZOOM_FACTOR * -50, true); viewport.panBy(new OpenSeadragon.Point(5000, 5000), null, true); viewport.ensureVisible(true); var bounds = viewport.getBounds(); assert.ok(bounds.getSize().x > 1 && bounds.getSize().y > 1, "Moved viewport so that image is visible."); done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('applyConstraints', function(assert) { var done = assert.async(); var openHandler = function() { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.fitBounds(new OpenSeadragon.Rect(1, 1, 1, 1), true); viewport.visibilityRatio = 0.3; viewport.applyConstraints(true); var bounds = viewport.getBounds(); Util.assertRectangleEquals( assert, new OpenSeadragon.Rect(0.7, 0.7, 1, 1), bounds, EPSILON, "Viewport.applyConstraints should move viewport."); done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('applyConstraints flipped', function(assert) { var done = assert.async(); var openHandler = function() { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.setFlip(true); viewport.fitBounds(new OpenSeadragon.Rect(1, 1, 1, 1), true); viewport.visibilityRatio = 0.3; viewport.applyConstraints(true); var bounds = viewport.getBounds(); Util.assertRectangleEquals( assert, new OpenSeadragon.Rect(0.7, 0.7, 1, 1), bounds, EPSILON, "Viewport.applyConstraints should move flipped viewport."); done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('applyConstraints with visibilityRatio = 1 shouldn\'t bounce around', function(assert) { var done = assert.async(); var openHandler = function() { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.visibilityRatio = 1; viewport.zoomTo(0.5, undefined, true); viewport.panBy(new OpenSeadragon.Point(0.75, 0), true); viewport.applyConstraints(true); var bounds = viewport.getBounds(); Util.assertRectangleEquals( assert, new OpenSeadragon.Rect(0, 1, 2, 2), bounds, EPSILON, "Viewport.applyConstraints should move viewport to the center, not to a side."); done(); }; viewer.addHandler('open', openHandler); viewer.open(TALL_PATH); }); QUnit.test('applyConstraints with rotation', function(assert) { var done = assert.async(); var openHandler = function() { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.setRotation(45, true); viewport.fitBounds(new OpenSeadragon.Rect(1, 1, 1, 1), true); viewport.applyConstraints(true); var bounds = viewport.getBounds(); Util.assertRectangleEquals( assert, new OpenSeadragon.Rect(1.0, 0.0, Math.sqrt(2), Math.sqrt(2), 45), bounds, EPSILON, "Viewport.applyConstraints with rotation should move viewport."); done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('applyConstraints flipped with rotation', function(assert) { var done = assert.async(); var openHandler = function() { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.setFlip(true); viewport.setRotation(45, true); viewport.fitBounds(new OpenSeadragon.Rect(1, 1, 1, 1), true); viewport.applyConstraints(true); var bounds = viewport.getBounds(); Util.assertRectangleEquals( assert, new OpenSeadragon.Rect(1.0, 0.0, Math.sqrt(2), Math.sqrt(2), 45), bounds, EPSILON, "Viewport.applyConstraints flipped and with rotation should move viewport."); done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); // Fit bounds tests var testRectsFitBounds = [ new OpenSeadragon.Rect(0, -0.75, 0.5, 1), new OpenSeadragon.Rect(0.5, 0, 0.5, 0.8), new OpenSeadragon.Rect(0.75, 0.75, 0.5, 0.5), new OpenSeadragon.Rect(-0.3, -0.3, 0.5, 0.5), new OpenSeadragon.Rect(0.5, 0.25, Math.sqrt(0.125), Math.sqrt(0.125), 45) ]; var expectedRectsFitBounds = [ new OpenSeadragon.Rect(-0.25, -0.75, 1, 1), new OpenSeadragon.Rect(0.35, 0, 0.8, 0.8), new OpenSeadragon.Rect(0.75, 0.75, 0.5, 0.5), new OpenSeadragon.Rect(-0.3, -0.3, 0.5, 0.5), new OpenSeadragon.Rect(0.25, 0.25, 0.5, 0.5) ]; var expectedRectsFitBoundsWithRotation = [ new OpenSeadragon.Rect( 0.25, -1, Math.sqrt(0.125) + Math.sqrt(0.5), Math.sqrt(0.125) + Math.sqrt(0.5), 45), new OpenSeadragon.Rect( 0.75, -0.25, Math.sqrt(0.125) + Math.sqrt(8 / 25), Math.sqrt(0.125) + Math.sqrt(8 / 25), 45), new OpenSeadragon.Rect( 1, 0.5, Math.sqrt(0.125) * 2, Math.sqrt(0.125) * 2, 45), new OpenSeadragon.Rect( -0.05, -0.55, Math.sqrt(0.125) * 2, Math.sqrt(0.125) * 2, 45), new OpenSeadragon.Rect( 0.5, 0.25, Math.sqrt(0.125), Math.sqrt(0.125), 45) ]; var expectedRectsFitBoundsWithConstraints = [ new OpenSeadragon.Rect(-0.25, -0.5, 1, 1), new OpenSeadragon.Rect(0.35, 0, 0.8, 0.8), new OpenSeadragon.Rect(0.75, 0.75, 0.5, 0.5), new OpenSeadragon.Rect(-0.25, -0.25, 0.5, 0.5), new OpenSeadragon.Rect(0.25, 0.25, 0.5, 0.5) ]; QUnit.test('fitBounds', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; for(var i = 0; i < testRectsFitBounds.length; i++){ var rect = testRectsFitBounds[i]; viewport.fitBounds(rect, true); assert.propEqual( viewport.getBounds(), expectedRectsFitBounds[i], "Fit bounds correctly." ); } done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('fitBounds with viewport rotation', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.setRotation(45, true); for(var i = 0; i < testRectsFitBounds.length; i++){ var rect = testRectsFitBounds[i]; viewport.fitBounds(rect, true); Util.assertRectangleEquals( assert, viewport.getBounds(), expectedRectsFitBoundsWithRotation[i], EPSILON, "Fit bounds correctly." ); } done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('fitBoundsWithConstraints', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.zoomTo(ZOOM_FACTOR, null, true); for(var i = 0; i < testRectsFitBounds.length; i++){ var rect = testRectsFitBounds[i]; viewport.fitBoundsWithConstraints(rect, true); assert.propEqual( viewport.getBounds(), expectedRectsFitBoundsWithConstraints[i], "Fit bounds correctly." ); } done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('fitBounds with almost same zoom', function(assert) { var done = assert.async(); var openHandler = function() { var viewport = viewer.viewport; var rect1 = new OpenSeadragon.Rect(0, 0, 1, 1); viewport.fitBounds(rect1, true); Util.assertRectangleEquals(assert, rect1, viewport.getBounds(), 1e-6, 'Bounds should be ' + rect1); // Zoom and pan var rect2 = new OpenSeadragon.Rect(1, 1, 1 + 1e-8, 1 + 1e-8); viewport.fitBounds(rect2); Util.assertRectangleEquals(assert, rect2, viewport.getBounds(), 1e-6, 'Bounds should be ' + rect2); done(); }; viewer.addOnceHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('fitBounds with big rectangle', function(assert) { var done = assert.async(); var openHandler = function() { var viewport = viewer.viewport; var rect1 = new OpenSeadragon.Rect(0, 0, 1e9, 1e9); viewport.fitBounds(rect1, true); Util.assertRectangleEquals(assert, rect1, viewport.getBounds(), 1e-6, 'Bounds should be ' + rect1); // Zoom and pan var rect2 = new OpenSeadragon.Rect(1, 1, 2e9, 2e9); viewport.fitBounds(rect2); Util.assertRectangleEquals(assert, rect2, viewport.getBounds(), 1e-6, 'Bounds should be ' + rect2); done(); }; viewer.addOnceHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('fitHorizontally', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.fitHorizontally(true); assert.propEqual( viewport.getBounds(), new OpenSeadragon.Rect(0, 1.5, 1, 1), "Viewport fit a tall image horizontally." ); done(); }; viewer.addHandler('open', openHandler); viewer.open(TALL_PATH); }); QUnit.test('fitVertically', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.fitVertically(true); assert.propEqual( viewport.getBounds(), new OpenSeadragon.Rect(0.375, 0, 0.25, 0.25), "Viewport fit a wide image vertically." ); done(); }; viewer.addHandler('open', openHandler); viewer.open(WIDE_PATH); }); // End fitBounds tests. QUnit.test('panBy', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; for (var i = 0; i < testPoints.length; i++){ var expected = viewport.getCenter().plus(testPoints[i]); viewport.panBy(testPoints[i], true); assert.propEqual( viewport.getCenter(), expected, "Panned by the correct amount." ); } done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('panBy flipped', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.setFlip(true); for (var i = 0; i < testPoints.length; i++){ var expected = viewport.getCenter().plus(testPoints[i]); viewport.panBy(testPoints[i], true); assert.propEqual( viewport.getCenter(), expected, "Panned flipped by the correct amount." ); } done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('panTo', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; for (var i = 0; i < testPoints.length; i++){ viewport.panTo(testPoints[i], true); assert.propEqual( viewport.getCenter(), testPoints[i], "Panned to the correct location." ); } done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('panTo flipped', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.setFlip(true); for (var i = 0; i < testPoints.length; i++){ viewport.panTo(testPoints[i], true); assert.propEqual( viewport.getCenter(), testPoints[i], "Panned flipped to the correct location." ); } done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('zoomBy no ref point', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; for (var i = 0; i < testZoomLevels.length; i++) { viewport.zoomBy(testZoomLevels[i], null, true); assert.propEqual( viewport.getZoom(), testZoomLevels[i], "Zoomed by the correct amount." ); } done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('zoomBy with ref point', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; var expectedCenters = [ new OpenSeadragon.Point(5, 5), new OpenSeadragon.Point(6.996, 6.996), new OpenSeadragon.Point(7.246, 6.996), new OpenSeadragon.Point(7.246, 6.996), new OpenSeadragon.Point(7.621, 7.371), new OpenSeadragon.Point(7.621, 7.371), ]; for (var i = 0; i < testZoomLevels.length; i++) { viewport.zoomBy(testZoomLevels[i], testPoints[i], true); assert.propEqual( viewport.getZoom(), testZoomLevels[i], "Zoomed by the correct amount." ); assertPointsEquals( assert, viewport.getCenter(), expectedCenters[i], 1e-14, "Panned to the correct location." ); } done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('zoomBy flipped with ref point', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.setFlip(true); var expectedFlippedCenters = [ new OpenSeadragon.Point(5, 5), new OpenSeadragon.Point(6.996, 6.996), new OpenSeadragon.Point(7.246, 6.996), new OpenSeadragon.Point(7.246, 6.996), new OpenSeadragon.Point(7.621, 7.371), new OpenSeadragon.Point(7.621, 7.371), ]; for (var i = 0; i < testZoomLevels.length; i++) { viewport.zoomBy(testZoomLevels[i], testPoints[i], true); assert.propEqual( testZoomLevels[i], viewport.getZoom(), "Zoomed flipped by the correct amount." ); assertPointsEquals( assert, expectedFlippedCenters[i], viewport.getCenter(), 1e-6, "Panned flipped to the correct location." ); } done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('zoomTo no ref point', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; for (var i = 0; i < testZoomLevels.length; i++) { viewport.zoomTo(testZoomLevels[i], null, true); assert.propEqual( viewport.getZoom(), testZoomLevels[i], "Zoomed to the correct level." ); } done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('zoomTo with ref point', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; var expectedCenters = [ new OpenSeadragon.Point(5, 5), new OpenSeadragon.Point(4.7505, 4.7505), new OpenSeadragon.Point(4.6005, 4.7505), new OpenSeadragon.Point(4.8455, 4.9955), new OpenSeadragon.Point(5.2205, 5.3705), new OpenSeadragon.Point(5.2205, 5.3705), ]; for (var i = 0; i < testZoomLevels.length; i++) { viewport.zoomTo(testZoomLevels[i], testPoints[i], true); assert.propEqual( viewport.getZoom(), testZoomLevels[i], "Zoomed to the correct level." ); assertPointsEquals( assert, expectedCenters[i], viewport.getCenter(), 1e-14, "Panned to the correct location." ); } done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('zoomTo flipped with ref point', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.setFlip(true); var expectedFlippedCenters = [ new OpenSeadragon.Point(5, 5), new OpenSeadragon.Point(4.7505, 4.7505), new OpenSeadragon.Point(4.6005, 4.7505), new OpenSeadragon.Point(4.8455, 4.9955), new OpenSeadragon.Point(5.2205, 5.3705), new OpenSeadragon.Point(5.2205, 5.3705), ]; for (var i = 0; i < testZoomLevels.length; i++) { viewport.zoomTo(testZoomLevels[i], testPoints[i], true); assert.propEqual( viewport.getZoom(), testZoomLevels[i], "Zoomed flipped to the correct level." ); assertPointsEquals( assert, expectedFlippedCenters[i], viewport.getCenter(), 1e-14, "Panned flipped to the correct location." ); } done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('rotation', function(assert){ var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; assert.propEqual(viewport.getRotation, 0, "Original rotation should be 0 degrees"); viewport.setRotation(90, true); assert.propEqual(viewport.getRotation, 90, "Rotation should be 90 degrees"); viewport.setRotation(-75, true); assert.propEqual(viewport.getRotation, -75, "Rotation should be -75 degrees"); viewport.setRotation(0, true); assert.strictEqual(viewport.getRotation(true), 0, 'viewport has default current rotation'); assert.strictEqual(viewport.getRotation(false), 0, 'viewport has default target rotation'); viewport.setRotation(33); assert.strictEqual(viewport.getRotation(true), 0, 'current rotation is not changed'); assert.strictEqual(viewport.getRotation(false), 33, 'target rotation is set correctly'); viewport.setRotation(200, true); assert.strictEqual(viewport.getRotation(true), 200, 'current rotation is set correctly'); assert.strictEqual(viewport.getRotation(false), 200, 'target rotation is set correctly'); done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('rotation (flipped)', function(assert){ var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.setFlip(true); assert.propEqual(viewport.getRotation, 0, "Original flipped rotation should be 0 degrees"); viewport.setRotation(90, true); assert.propEqual(viewport.getRotation, 90, "Flipped rotation should be 90 degrees"); viewport.setRotation(-75, true); assert.propEqual(viewport.getRotation, -75, "Flipped rotation should be -75 degrees"); done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('resize', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; for(var i = 0; i < testPoints.length; i++){ var newSize = testPoints[i].times(viewer.source.dimensions.x); viewport.resize(newSize); assert.propEqual(viewport.getContainerSize(), newSize, "Viewport resized successfully."); } done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('deltaPixelsFromPoints', function(assert) { loopingTestHelper(assert, { testArray: testPoints, getOrig: function(el, viewport){ return el.times(viewer.source.dimensions.x); }, getExpected: function(orig, viewport){ return orig.times(viewport.getContainerSize().x * ZOOM_FACTOR); }, method: 'deltaPixelsFromPoints' }); }); QUnit.test('deltaPointsFromPixels', function(assert) { loopingTestHelper(assert, { testArray: testPoints, getOrig: function(el, viewport) { return el.times(viewport.getContainerSize().x); }, getExpected: function(orig, viewport) { return orig.divide(viewport.getContainerSize().x * ZOOM_FACTOR); }, method: 'deltaPointsFromPixels' }); }); QUnit.test('pixelFromPoint', function(assert) { loopingTestHelper(assert, { testArray: testPoints, getOrig: function(el, viewport) { return el.times(viewer.source.dimensions.x); }, getExpected: function(orig, viewport) { return orig.plus(VIEWER_PADDING).times(viewport.getContainerSize().x * ZOOM_FACTOR).minus(viewport.getContainerSize()); }, method: 'pixelFromPoint' }); }); QUnit.test('pointFromPixel', function(assert) { loopingTestHelper(assert, { testArray: testPoints, getOrig: function(el, viewport) { return el.times(viewport.getContainerSize().x); }, getExpected: function(orig, viewport) { return orig.divide(viewer.source.dimensions.x).plus(VIEWER_PADDING); }, method: 'pointFromPixel' }); }); QUnit.test('viewportToImageCoordinates', function(assert) { loopingTestHelper(assert, { testArray: testPoints, getOrig: function(el, viewport) { return el.times(viewport.getContainerSize().x); }, getExpected: function(orig, viewport) { return orig.divide(viewer.source.dimensions.x); }, method: 'imageToViewportCoordinates', assert: assertPointsEquals }); }); QUnit.test('imageToViewportCoordinates', function(assert) { loopingTestHelper(assert, { testArray: testPoints, getOrig: function(el, viewport) { return el.times(viewer.source.dimensions.x); }, getExpected: function(orig, viewport) { return orig.divide(ZOOM_FACTOR * viewport.getContainerSize().x); }, method: 'imageToViewportCoordinates', assert: assertPointsEquals }); }); QUnit.test('imageToViewportRectangle', function(assert) { loopingTestHelper(assert, { testArray: testRects, getOrig: function(el, viewport) { return el.times(viewer.source.dimensions.x); }, getExpected: function(orig, viewport) { return new OpenSeadragon.Rect( orig.x / viewer.source.dimensions.x, orig.y / viewer.source.dimensions.x, orig.width / viewer.source.dimensions.x, orig.height / viewer.source.dimensions.x ); }, method: 'imageToViewportRectangle', assert: assertPointsEquals }); }); QUnit.test('viewportToImageRectangle', function(assert) { loopingTestHelper(assert, { testArray: testRects, getOrig: function(el, viewport) { return el.times(viewport.getContainerSize().x); }, getExpected: function(orig, viewport) { return new OpenSeadragon.Rect( orig.x * viewer.source.dimensions.x, orig.y * viewer.source.dimensions.x, orig.width * viewer.source.dimensions.x, orig.height * viewer.source.dimensions.x ); }, method: 'viewportToImageRectangle' }); }); QUnit.test('viewerElementToImageCoordinates', function(assert) { loopingTestHelper(assert, { testArray: testPoints, getOrig: function(el, viewport) { return el.times(viewport.getContainerSize().x); }, getExpected: function(orig, viewport) { return orig.plus(viewport.getContainerSize().divide(2)); }, method: 'viewerElementToImageCoordinates' }); }); QUnit.test('imageToViewerElementCoordinates', function(assert) { loopingTestHelper(assert, { testArray: testPoints, getOrig: function(el, viewport) { return el.times(viewer.source.dimensions.x); }, getExpected: function(orig, viewport) { return orig.minus(viewport.getContainerSize().divide(2)); }, method: 'imageToViewerElementCoordinates' }); }); QUnit.test('windowToImageCoordinates', function(assert) { loopingTestHelper(assert, { testArray: testPoints, getOrig: function(el, viewport) { var windowBoundary = Math.min(window.innerWidth, window.innerHeight); return el.times(windowBoundary); }, getExpected: function(orig, viewport) { var posPoint = OpenSeadragon.getElementOffset(viewer.element); return orig.minus(posPoint).divide(viewport.getContainerSize().x * ZOOM_FACTOR).plus(VIEWER_PADDING); }, method: 'windowToViewportCoordinates' }); }); QUnit.test('imageToWindowCoordinates', function(assert) { loopingTestHelper(assert, { testArray: testPoints, getOrig: function(el, viewport) { return el.times(viewer.source.dimensions.x); }, getExpected: function(orig, viewport) { var posPoint = OpenSeadragon.getElementOffset(viewer.element); return orig.plus(posPoint).minus(VIEWER_PADDING.times(viewport.getContainerSize().x * ZOOM_FACTOR)); }, method: 'imageToWindowCoordinates' }); }); QUnit.test('windowToViewportCoordinates', function(assert) { loopingTestHelper(assert, { testArray: testPoints, getOrig: function(el, viewport) { var windowBoundary = Math.min(window.innerWidth, window.innerHeight); return el.times(windowBoundary); }, getExpected: function(orig, viewport) { var posPoint = OpenSeadragon.getElementOffset(viewer.element); return orig.minus(posPoint).divide(viewport.getContainerSize().x * ZOOM_FACTOR).plus(VIEWER_PADDING); }, method: 'windowToViewportCoordinates' }); }); QUnit.test('viewportToWindowCoordinates', function(assert) { loopingTestHelper(assert, { testArray: testPoints, getOrig: function(el, viewport) { return el.times(viewer.source.dimensions.x); }, getExpected: function(orig, viewport) { var posPoint = OpenSeadragon.getElementOffset(viewer.element); return orig.minus(VIEWER_PADDING).times(viewport.getContainerSize().x * ZOOM_FACTOR).plus(posPoint); }, method: 'viewportToWindowCoordinates' }); }); QUnit.test('viewportToImageZoom', function(assert) { loopingTestHelper(assert, { testArray: testPoints, getOrig: function(el, viewport) { return el; }, getExpected: function(orig, viewport) { return orig / ZOOM_FACTOR; }, method: 'viewportToImageZoom' }); }); QUnit.test('imageToViewportZoom', function(assert) { loopingTestHelper(assert, { testArray: testPoints, getOrig: function(el, viewport) { return el; }, getExpected: function(orig, viewport) { return orig * ZOOM_FACTOR; }, method: 'imageToViewportZoom' }); }); QUnit.test('toggleFlipState', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; assert.deepEqual(viewport.getFlip(), false, "Get original flip state should be false"); viewport.toggleFlip(); assert.deepEqual(viewport.getFlip(), true, "Toggling flip state variable, viewport should be true"); viewport.toggleFlip(); assert.deepEqual(viewport.getFlip(), false, "Toggling back flip state variable, viewport should be false again"); done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('setFlipState', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; assert.deepEqual(viewport.getFlip(), false, "Get original flip state should be false"); viewport.setFlip(true); assert.deepEqual(viewport.getFlip(), true, "Setting flip state variable should be true"); viewport.setFlip(false); assert.deepEqual(viewport.getFlip(), false, "Unsetting flip state variable, viewport should be false again"); done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); QUnit.test('setMaxZoomPixelRatio', function(assert) { var done = assert.async(); var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; for (var i = 0; i < testZoomLevels.length; i++) { viewport.setMaxZoomPixelRatio(testZoomLevels[i]) assert.equal(viewport.getMaxZoomPixelRatio(), testZoomLevels[i], "Max zoom pixel ratio is set correctly."); } viewport.zoomTo(viewport.getMaxZoom()) viewport.setMaxZoomPixelRatio(testZoomLevels[0], true) assert.equal(viewport.getZoom(), viewport.getMaxZoom(), "Zoom should be adjusted to max zoom level."); done(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); })();