/* global module, asyncTest, $, ok, equal, notEqual, start, test, Util, testLog */ (function () { var viewer; module("viewport", { setup: function () { var example = $('
').appendTo("#qunit-fixture"); testLog.reset(); viewer = OpenSeadragon({ id: 'example', prefixUrl: '/build/openseadragon/images/', springStiffness: 100 // Faster animation = faster tests }); }, teardown: function () { if (viewer && viewer.close) { viewer.close(); } 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(20, 20); var DZI_PATH = '/test/data/testpattern.dzi' var TALL_PATH = '/test/data/tall.dzi' var testZoomLevels = [-1, 0, 0.1, 0.5, 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) ]; // ---------- /* asyncTest('template', function() { var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.zoomTo(ZOOM_FACTOR, null, true); start(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); */ asyncTest('getContainerSize', function() { var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.zoomTo(ZOOM_FACTOR, null, true); propEqual(viewport.getContainerSize(), new OpenSeadragon.Point(500, 500), "Test container size") start(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); asyncTest('getAspectRatio', function() { var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.zoomTo(ZOOM_FACTOR, null, true); equal(viewport.getAspectRatio(), 1, "Test aspect ratio") start(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); asyncTest('getMinZoomDefault', function() { var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.zoomTo(ZOOM_FACTOR, null, true); equal(viewport.getMinZoom(), .9, "Test default min zoom level") start(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); asyncTest('getMaxZoomDefault', function() { var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.zoomTo(ZOOM_FACTOR, null, true); equal(viewport.getMaxZoom(), 2.2, "Test default max zoom level") start(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); asyncTest('getMinZoom', function() { var expected, level, i = 0; var openHandler = function(event) { var viewport = viewer.viewport; viewport.zoomTo(ZOOM_FACTOR, null, true); 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. } equal( viewport.getMinZoom(), expected, "Test getMinZoom with zoom level of " + level ); i++; if(i < testZoomLevels.length){ level = testZoomLevels[i]; viewer.minZoomLevel = level; expected = level; viewer.open(DZI_PATH); } else { viewer.removeHandler('open', openHandler); start(); } }; viewer.addHandler('open', openHandler); level = testZoomLevels[i]; viewer.minZoomLevel = level; expected = level; viewer.open(DZI_PATH); }); asyncTest('getMaxZoom', function() { var expected, level, i = 0; var openHandler = function(event) { var viewport = viewer.viewport; viewport.zoomTo(ZOOM_FACTOR, null, true); 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. } equal( viewport.getMaxZoom(), expected, "Test getMaxZoom with zoom level of " + level ); i++; if(i < testZoomLevels.length){ level = testZoomLevels[i]; viewer.maxZoomLevel = level; expected = level; viewer.open(DZI_PATH); } else { viewer.removeHandler('open', openHandler); start(); } }; viewer.addHandler('open', openHandler); level = testZoomLevels[i]; viewer.maxZoomLevel = level; expected = level; viewer.open(DZI_PATH); }); asyncTest('getHomeBounds', function() { var expected, i = 0; var openHandler = function(event) { var viewport = viewer.viewport; viewport.zoomTo(ZOOM_FACTOR, null, true); // Have to special case this to avoid dividing by 0 if(testZoomLevels[i] == 0){ expected = new OpenSeadragon.Rect(0, 0, 1, 1); } else{ var sideLength = 1.0 / viewer.defaultZoomLevel; // it's a square in this case var position = 0.5 - (sideLength / 2.0); expected = new OpenSeadragon.Rect(position, position, sideLength, sideLength); } propEqual( viewport.getHomeBounds(), expected, "Test getHomeBounds with default zoom level of " + viewer.defaultZoomLevel ); i++; if(i < testZoomLevels.length){ viewer.defaultZoomLevel = testZoomLevels[i]; viewer.open(DZI_PATH); } else { viewer.removeHandler('open', openHandler); start(); } }; viewer.addHandler('open', openHandler); viewer.defaultZoomLevel = testZoomLevels[i]; viewer.open(DZI_PATH); }); asyncTest('getHomeZoom', function() { var expected, i = 0; var openHandler = function(event) { var viewport = viewer.viewport; viewport.zoomTo(ZOOM_FACTOR, null, true); // If the default zoom level is set to 0, then we expect the home zoom to be 1. if(expected == 0){ expected = 1; } equal( viewport.getHomeZoom(), expected, "Test getHomeZoom with default zoom level of " + expected ); i++; if(i < testZoomLevels.length){ expected = testZoomLevels[i]; viewer.defaultZoomLevel = expected; viewer.open(DZI_PATH); } else { viewer.removeHandler('open', openHandler); start(); } }; viewer.addHandler('open', openHandler); expected = testZoomLevels[i]; viewer.defaultZoomLevel = expected; viewer.open(DZI_PATH); }); asyncTest('getHomeZoomWithHomeFillsViewer', function() { var expected, i = 0; var openHandler = function(event) { var viewport = viewer.viewport; viewport.zoomTo(ZOOM_FACTOR, null, true); // If the default zoom level is set to 0, then we expect the home zoom to be 1. if(expected == 0){ expected = 1; } equal( viewport.getHomeZoom(), expected, "Test getHomeZoom with homeFillsViewer = true and default zoom level of " + expected ); i++; if(i < testZoomLevels.length){ expected = testZoomLevels[i]; viewer.defaultZoomLevel = expected; viewer.open(TALL_PATH); // use a different image for homeFillsViewer } else { viewer.removeHandler('open', openHandler); start(); } }; viewer.addHandler('open', openHandler); expected = testZoomLevels[i]; viewer.homeFillsViewer = true; viewer.defaultZoomLevel = expected; viewer.open(TALL_PATH); // use a different image for homeFillsViewer }); asyncTest('deltaPixelsFromPoints', function() { 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 < testPoints.length; i++){ orig = testPoints[i].times(viewer.source.dimensions.x); expected = orig.times(viewport.getContainerSize().x * ZOOM_FACTOR); actual = viewport.deltaPixelsFromPoints(orig); propEqual(actual, expected, "Correctly got delta pixels from points with current = false " + orig); expected_current = orig.times(viewport.getContainerSize().x); actual_current = viewport.deltaPixelsFromPoints(orig, true); propEqual(actual_current, expected_current, "Correctly got delta pixels from points with current = true " + orig); } start(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); asyncTest('deltaPointsFromPixels', function() { 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 < testPoints.length; i++){ orig = testPoints[i].times(viewport.getContainerSize().x); expected = orig.divide(viewport.getContainerSize().x * ZOOM_FACTOR); actual = viewport.deltaPointsFromPixels(orig); propEqual(actual, expected, "Correctly got delta points from pixels with current = false " + orig); expected_current = orig.divide(viewport.getContainerSize().x); actual_current = viewport.deltaPointsFromPixels(orig, true); propEqual(actual_current, expected_current, "Correctly got delta points from pixels with current = true " + orig); } start(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); asyncTest('pixelFromPoint', function() { 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 < testPoints.length; i++){ orig = testPoints[i].times(viewer.source.dimensions.x); // todo: this magic point is something to do with the target location but I don't entirely understand why it's here expected = orig.plus(new OpenSeadragon.Point(0.25, 0.25)).times(viewport.getContainerSize().x * ZOOM_FACTOR).minus(viewport.getContainerSize()); actual = viewport.pixelFromPoint(orig, false); propEqual( actual, expected, "Correctly converted coordinates with current = false " + orig ); expected_current = orig.times(viewport.getContainerSize().x); actual_current = viewport.pixelFromPoint(orig, true); propEqual( actual_current, expected_current, "Correctly converted coordinates with current = true " + orig ); } start(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); asyncTest('pointFromPixel', function() { 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 < testPoints.length; i++){ orig = testPoints[i].times(viewport.getContainerSize().x); // todo: this magic point is something to do with the target location but I don't entirely understand why it's here expected = orig.divide(viewer.source.dimensions.x).plus(new OpenSeadragon.Point(0.25, 0.25)); actual = viewport.pointFromPixel(orig, false); propEqual( actual, expected, "Correctly converted coordinates with current = false " + orig ); expected_current = orig.divide(viewer.source.dimensions.x / ZOOM_FACTOR); actual_current = viewport.pointFromPixel(orig, true); propEqual( actual_current, expected_current, "Correctly converted coordinates with current = true " + orig ); } start(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); asyncTest('viewportToImageCoordinates', function() { 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 < testPoints.length; i++){ orig = testPoints[i].times(viewport.getContainerSize().x); expected = orig.divide(viewer.source.dimensions.x); actual = viewport.imageToViewportCoordinates(orig); propEqual(actual, expected, "Coordinates converted correctly for " + orig); } start(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); asyncTest('imageToViewportCoordinates', function() { 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 < testPoints.length; i++){ orig = testPoints[i].times(viewer.source.dimensions.x); expected = orig.divide(ZOOM_FACTOR * viewport.getContainerSize().x); actual = viewport.imageToViewportCoordinates(orig); propEqual(actual, expected, "Coordinates converted correctly for " + orig); } start(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); asyncTest('imageToViewportRectangle', function() { 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 < testRects.length; i++){ orig = testRects[i].times(viewer.source.dimensions.x); expected = 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 ); actual = viewport.imageToViewportRectangle(orig); propEqual(actual, expected, "Coordinates converted correctly for " + orig); } start(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); asyncTest('viewportToImageRectangle', function() { 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 < testRects.length; i++){ orig = testRects[i].times(viewport.getContainerSize().x); expected = 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 ); actual = viewport.viewportToImageRectangle(orig); propEqual(actual, expected, "Coordinates converted correctly for " + orig); } start(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); asyncTest('viewerElementToImageCoordinates', function() { 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 < testPoints.length; i++){ orig = testPoints[i].times(viewport.getContainerSize().x); expected = orig.times(ZOOM_FACTOR); actual = viewport.viewerElementToImageCoordinates(orig); propEqual(actual, expected, "Coordinates converted correctly for " + orig); } start(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); asyncTest('imageToViewerElementCoordinates', function() { 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 < testPoints.length; i++){ orig = testPoints[i].times(viewer.source.dimensions.x); expected = orig.divide(ZOOM_FACTOR); actual = viewport.imageToViewerElementCoordinates(orig); propEqual(actual, expected, "Coordinates converted correctly for " + orig); } start(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); asyncTest('windowToImageCoordinates', function() { var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.zoomTo(ZOOM_FACTOR, null, true); var window_boundary = Math.min(window.innerWidth, window.innerHeight); var orig, expected, actual; for (var i = 0; i < testPoints.length; i++){ orig = testPoints[i].times(window_boundary); expected = orig.divide(viewport.getContainerSize().x).plus(VIEWER_PADDING); actual = viewport.windowToViewportCoordinates(orig); propEqual(actual, expected, "Coordinates converted correctly for " + orig); } start(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); asyncTest('imageToWindowCoordinates', function() { 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 < testPoints.length; i++){ orig = testPoints[i].times(viewer.source.dimensions.x); position = viewer.element.getBoundingClientRect(); expected = orig.divide(ZOOM_FACTOR).plus( new OpenSeadragon.Point(position.top, position.left) ); actual = viewport.imageToWindowCoordinates(orig); propEqual(actual, expected, "Coordinates converted correctly for " + orig); } start(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); asyncTest('windowToViewportCoordinates', function() { var openHandler = function(event) { viewer.removeHandler('open', openHandler); var viewport = viewer.viewport; viewport.zoomTo(ZOOM_FACTOR, null, true); var window_boundary = Math.min(window.innerWidth, window.innerHeight); var orig, expected, actual; for (var i = 0; i < testPoints.length; i++){ orig = testPoints[i].times(window_boundary); expected = orig.divide(viewport.getContainerSize().x).plus(VIEWER_PADDING); actual = viewport.windowToViewportCoordinates(orig); propEqual(actual, expected, "Coordinates converted correctly for " + orig); } start(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); asyncTest('viewportToWindowCoordinates', function() { 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 < testPoints.length; i++){ orig = testPoints[i].times(viewer.source.dimensions.x); expected = orig.minus(VIEWER_PADDING).times(viewport.getContainerSize().x); actual = viewport.viewportToWindowCoordinates(orig); propEqual(actual, expected, "Coordinates converted correctly for " + orig); } start(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); asyncTest('viewportToImageZoom', function() { 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 < testPoints.length; i++){ orig = testZoomLevels[i]; expected = orig / ZOOM_FACTOR; actual = viewport.viewportToImageZoom(orig); equal(expected, actual, "Coordinates converted correctly for " + orig); } start(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); asyncTest('imageToViewportZoom', function() { 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 < testPoints.length; i++){ orig = testZoomLevels[i]; expected = orig * ZOOM_FACTOR; actual = viewport.imageToViewportZoom(orig); equal(expected, actual, "Coordinates converted correctly for " + orig); } start(); }; viewer.addHandler('open', openHandler); viewer.open(DZI_PATH); }); })();