mirror of
https://github.com/openseadragon/openseadragon.git
synced 2024-11-27 07:36:09 +03:00
304 lines
14 KiB
JavaScript
304 lines
14 KiB
JavaScript
/* global QUnit, Util */
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(function() {
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QUnit.module('Rectangle', {});
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var precision = 0.000000001;
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QUnit.test('Constructor', function(assert) {
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var rect = new OpenSeadragon.Rect(1, 2, 3, 4, 5);
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assert.strictEqual(rect.x, 1, 'rect.x should be 1');
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assert.strictEqual(rect.y, 2, 'rect.y should be 2');
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assert.strictEqual(rect.width, 3, 'rect.width should be 3');
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assert.strictEqual(rect.height, 4, 'rect.height should be 4');
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assert.strictEqual(rect.degrees, 5, 'rect.degrees should be 5');
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rect = new OpenSeadragon.Rect();
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assert.strictEqual(rect.x, 0, 'rect.x should be 0');
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assert.strictEqual(rect.y, 0, 'rect.y should be 0');
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assert.strictEqual(rect.width, 0, 'rect.width should be 0');
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assert.strictEqual(rect.height, 0, 'rect.height should be 0');
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assert.strictEqual(rect.degrees, 0, 'rect.degrees should be 0');
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rect = new OpenSeadragon.Rect(0, 0, 1, 2, -405);
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Util.assessNumericValue(assert, Math.sqrt(2) / 2, rect.x, precision,
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'rect.x should be sqrt(2)/2');
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Util.assessNumericValue(assert, -Math.sqrt(2) / 2, rect.y, precision,
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'rect.y should be -sqrt(2)/2');
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Util.assessNumericValue(assert, 2, rect.width, precision,
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'rect.width should be 2');
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Util.assessNumericValue(assert, 1, rect.height, precision,
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'rect.height should be 1');
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assert.strictEqual(45, rect.degrees, 'rect.degrees should be 45');
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rect = new OpenSeadragon.Rect(0, 0, 1, 2, 135);
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Util.assessNumericValue(assert, -Math.sqrt(2), rect.x, precision,
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'rect.x should be -sqrt(2)');
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Util.assessNumericValue(assert, -Math.sqrt(2), rect.y, precision,
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'rect.y should be -sqrt(2)');
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Util.assessNumericValue(assert, 2, rect.width, precision,
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'rect.width should be 2');
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Util.assessNumericValue(assert, 1, rect.height, precision,
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'rect.height should be 1');
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assert.strictEqual(45, rect.degrees, 'rect.degrees should be 45');
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rect = new OpenSeadragon.Rect(0, 0, 1, 1, 585);
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Util.assessNumericValue(assert, 0, rect.x, precision,
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'rect.x should be 0');
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Util.assessNumericValue(assert, -Math.sqrt(2), rect.y, precision,
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'rect.y should be -sqrt(2)');
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Util.assessNumericValue(assert, 1, rect.width, precision,
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'rect.width should be 1');
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Util.assessNumericValue(assert, 1, rect.height, precision,
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'rect.height should be 1');
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assert.strictEqual(45, rect.degrees, 'rect.degrees should be 45');
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});
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QUnit.test('getTopLeft', function(assert) {
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var rect = new OpenSeadragon.Rect(1, 2, 3, 4, 5);
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var expected = new OpenSeadragon.Point(1, 2);
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assert.ok(expected.equals(rect.getTopLeft()), "Incorrect top left point.");
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});
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QUnit.test('getTopRight', function(assert) {
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var rect = new OpenSeadragon.Rect(0, 0, 1, 3);
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var expected = new OpenSeadragon.Point(1, 0);
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assert.ok(expected.equals(rect.getTopRight()), "Incorrect top right point.");
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rect.degrees = 45;
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expected = new OpenSeadragon.Point(1 / Math.sqrt(2), 1 / Math.sqrt(2));
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Util.assertPointsEquals(assert, expected, rect.getTopRight(), precision,
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"Incorrect top right point with rotation.");
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});
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QUnit.test('getBottomLeft', function(assert) {
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var rect = new OpenSeadragon.Rect(0, 0, 3, 1);
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var expected = new OpenSeadragon.Point(0, 1);
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assert.ok(expected.equals(rect.getBottomLeft()), "Incorrect bottom left point.");
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rect.degrees = 45;
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expected = new OpenSeadragon.Point(-1 / Math.sqrt(2), 1 / Math.sqrt(2));
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Util.assertPointsEquals(assert, expected, rect.getBottomLeft(), precision,
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"Incorrect bottom left point with rotation.");
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});
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QUnit.test('getBottomRight', function(assert) {
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var rect = new OpenSeadragon.Rect(0, 0, 1, 1);
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var expected = new OpenSeadragon.Point(1, 1);
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assert.ok(expected.equals(rect.getBottomRight()), "Incorrect bottom right point.");
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rect.degrees = 45;
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expected = new OpenSeadragon.Point(0, Math.sqrt(2));
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Util.assertPointsEquals(assert, expected, rect.getBottomRight(), precision,
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"Incorrect bottom right point with 45 rotation.");
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rect.degrees = 90;
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expected = new OpenSeadragon.Point(-1, 1);
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Util.assertPointsEquals(assert, expected, rect.getBottomRight(), precision,
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"Incorrect bottom right point with 90 rotation.");
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rect.degrees = 135;
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expected = new OpenSeadragon.Point(-Math.sqrt(2), 0);
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Util.assertPointsEquals(assert, expected, rect.getBottomRight(), precision,
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"Incorrect bottom right point with 135 rotation.");
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});
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QUnit.test('getCenter', function(assert) {
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var rect = new OpenSeadragon.Rect(0, 0, 1, 1);
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var expected = new OpenSeadragon.Point(0.5, 0.5);
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assert.ok(expected.equals(rect.getCenter()), "Incorrect center point.");
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rect.degrees = 45;
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expected = new OpenSeadragon.Point(0, 0.5 * Math.sqrt(2));
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Util.assertPointsEquals(assert, expected, rect.getCenter(), precision,
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"Incorrect bottom right point with 45 rotation.");
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rect.degrees = 90;
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expected = new OpenSeadragon.Point(-0.5, 0.5);
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Util.assertPointsEquals(assert, expected, rect.getCenter(), precision,
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"Incorrect bottom right point with 90 rotation.");
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rect.degrees = 135;
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expected = new OpenSeadragon.Point(-0.5 * Math.sqrt(2), 0);
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Util.assertPointsEquals(assert, expected, rect.getCenter(), precision,
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"Incorrect bottom right point with 135 rotation.");
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});
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QUnit.test('times', function(assert) {
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var rect = new OpenSeadragon.Rect(1, 2, 3, 4, 45);
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var expected = new OpenSeadragon.Rect(2, 4, 6, 8, 45);
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var actual = rect.times(2);
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Util.assertRectangleEquals(assert, expected, actual, precision,
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"Incorrect x2 rectangles.");
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});
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QUnit.test('translate', function(assert) {
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var rect = new OpenSeadragon.Rect(1, 2, 3, 4, 45);
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var expected = new OpenSeadragon.Rect(2, 4, 3, 4, 45);
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var actual = rect.translate(new OpenSeadragon.Point(1, 2));
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Util.assertRectangleEquals(assert, expected, actual, precision,
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"Incorrect translation.");
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});
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QUnit.test('union', function(assert) {
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var rect1 = new OpenSeadragon.Rect(2, 2, 2, 3);
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var rect2 = new OpenSeadragon.Rect(0, 1, 1, 1);
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var expected = new OpenSeadragon.Rect(0, 1, 4, 4);
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var actual = rect1.union(rect2);
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Util.assertRectangleEquals(assert, expected, actual, precision,
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"Incorrect union with horizontal rectangles.");
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rect1 = new OpenSeadragon.Rect(0, -Math.sqrt(2), 2, 2, 45);
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rect2 = new OpenSeadragon.Rect(1, 0, 2, 2, 0);
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expected = new OpenSeadragon.Rect(
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-Math.sqrt(2),
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-Math.sqrt(2),
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3 + Math.sqrt(2),
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2 + Math.sqrt(2));
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actual = rect1.union(rect2);
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Util.assertRectangleEquals(assert, expected, actual, precision,
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"Incorrect union with non horizontal rectangles.");
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});
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QUnit.test('intersection', function(assert) {
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var rect1 = new OpenSeadragon.Rect(2, 2, 2, 3);
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var rect2 = new OpenSeadragon.Rect(0, 1, 1, 1);
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var expected = null;
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var actual = rect1.intersection(rect2);
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assert.equal(expected, actual,
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"Rectangle " + rect2 + " should not intersect " + rect1);
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actual = rect2.intersection(rect1);
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assert.equal(expected, actual,
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"Rectangle " + rect1 + " should not intersect " + rect2);
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rect1 = new OpenSeadragon.Rect(0, 0, 2, 1);
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rect2 = new OpenSeadragon.Rect(1, 0, 2, 2);
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expected = new OpenSeadragon.Rect(1, 0, 1, 1);
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actual = rect1.intersection(rect2);
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Util.assertRectangleEquals(assert, expected, actual, precision,
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"Intersection of " + rect2 + " with " + rect1 + " should be " +
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expected);
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actual = rect2.intersection(rect1);
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Util.assertRectangleEquals(assert, expected, actual, precision,
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"Intersection of " + rect1 + " with " + rect2 + " should be " +
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expected);
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rect1 = new OpenSeadragon.Rect(0, 0, 3, 3);
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rect2 = new OpenSeadragon.Rect(1, 1, 1, 1);
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expected = new OpenSeadragon.Rect(1, 1, 1, 1);
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actual = rect1.intersection(rect2);
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Util.assertRectangleEquals(assert, expected, actual, precision,
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"Intersection of " + rect2 + " with " + rect1 + " should be " +
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expected);
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actual = rect2.intersection(rect1);
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Util.assertRectangleEquals(assert, expected, actual, precision,
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"Intersection of " + rect1 + " with " + rect2 + " should be " +
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expected);
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rect1 = new OpenSeadragon.Rect(2, 2, 2, 3, 45);
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rect2 = new OpenSeadragon.Rect(0, 1, 1, 1);
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expected = null;
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actual = rect1.intersection(rect2);
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assert.equal(expected, actual,
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"Rectangle " + rect2 + " should not intersect " + rect1);
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actual = rect2.intersection(rect1);
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assert.equal(expected, actual,
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"Rectangle " + rect1 + " should not intersect " + rect2);
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rect1 = new OpenSeadragon.Rect(2, 0, 2, 3, 45);
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rect2 = new OpenSeadragon.Rect(0, 1, 1, 1);
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expected = new OpenSeadragon.Rect(0, 1, 1, 1);
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actual = rect1.intersection(rect2);
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Util.assertRectangleEquals(assert, expected, actual, precision,
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"Intersection of " + rect2 + " with " + rect1 + " should be " +
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expected);
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actual = rect2.intersection(rect1);
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Util.assertRectangleEquals(assert, expected, actual, precision,
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"Intersection of " + rect1 + " with " + rect2 + " should be " +
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expected);
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});
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QUnit.test('rotate', function(assert) {
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var rect = new OpenSeadragon.Rect(0, 0, 2, 1);
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var expected = new OpenSeadragon.Rect(
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1 - 1 / (2 * Math.sqrt(2)),
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0.5 - 3 / (2 * Math.sqrt(2)),
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2,
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1,
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45);
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var actual = rect.rotate(-675);
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Util.assertRectangleEquals(assert, expected, actual, precision,
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"Incorrect rectangle after rotation of -675deg around center.");
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expected = new OpenSeadragon.Rect(0, 0, 2, 1, 33);
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actual = rect.rotate(33, rect.getTopLeft());
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Util.assertRectangleEquals(assert, expected, actual, precision,
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"Incorrect rectangle after rotation of 33deg around topLeft.");
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expected = new OpenSeadragon.Rect(0, 0, 2, 1, 101);
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actual = rect.rotate(101, rect.getTopLeft());
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Util.assertRectangleEquals(assert, expected, actual, precision,
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"Incorrect rectangle after rotation of 187deg around topLeft.");
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expected = new OpenSeadragon.Rect(0, 0, 2, 1, 187);
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actual = rect.rotate(187, rect.getTopLeft());
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Util.assertRectangleEquals(assert, expected, actual, precision,
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"Incorrect rectangle after rotation of 187deg around topLeft.");
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expected = new OpenSeadragon.Rect(0, 0, 2, 1, 300);
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actual = rect.rotate(300, rect.getTopLeft());
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Util.assertRectangleEquals(assert, expected, actual, precision,
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"Incorrect rectangle after rotation of 300deg around topLeft.");
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});
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QUnit.test('getBoundingBox', function(assert) {
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var rect = new OpenSeadragon.Rect(0, 0, 2, 3);
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var bb = rect.getBoundingBox();
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assert.ok(rect.equals(bb), "Bounding box of horizontal rectangle should be " +
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"identical to rectangle.");
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rect.degrees = 90;
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var expected = new OpenSeadragon.Rect(-3, 0, 3, 2);
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Util.assertRectangleEquals(assert, expected, rect.getBoundingBox(), precision,
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"Bounding box of rect rotated 90deg.");
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rect.degrees = 180;
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expected = new OpenSeadragon.Rect(-2, -3, 2, 3);
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Util.assertRectangleEquals(assert, expected, rect.getBoundingBox(), precision,
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"Bounding box of rect rotated 180deg.");
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rect.degrees = 270;
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expected = new OpenSeadragon.Rect(0, -2, 3, 2);
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Util.assertRectangleEquals(assert, expected, rect.getBoundingBox(), precision,
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"Bounding box of rect rotated 270deg.");
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});
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QUnit.test('containsPoint', function(assert) {
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var rect = new OpenSeadragon.Rect(0, 0, 1, 1, 45);
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assert.ok(rect.containsPoint(new OpenSeadragon.Point(0, 0)),
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'Point 0,0 should be inside ' + rect);
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assert.ok(rect.containsPoint(rect.getTopRight()),
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'Top right vertex should be inside ' + rect);
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assert.ok(rect.containsPoint(rect.getBottomRight()),
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'Bottom right vertex should be inside ' + rect);
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assert.ok(rect.containsPoint(rect.getBottomLeft()),
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'Bottom left vertex should be inside ' + rect);
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assert.ok(rect.containsPoint(rect.getCenter()),
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'Center should be inside ' + rect);
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assert.notOk(rect.containsPoint(new OpenSeadragon.Point(1, 0)),
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'Point 1,0 should not be inside ' + rect);
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assert.ok(rect.containsPoint(new OpenSeadragon.Point(0.5, 0.5)),
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'Point 0.5,0.5 should be inside ' + rect);
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assert.ok(rect.containsPoint(new OpenSeadragon.Point(0.4, 0.5)),
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'Point 0.4,0.5 should be inside ' + rect);
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assert.notOk(rect.containsPoint(new OpenSeadragon.Point(0.6, 0.5)),
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'Point 0.6,0.5 should not be inside ' + rect);
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});
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})();
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