using System; using System.Collections.Generic; using System.Collections.ObjectModel; using System.Drawing; using System.Linq; using Core.Common.Base.Geometry; using Core.Common.TestUtil; using Core.Components.DotSpatial.Converter; using Core.Components.DotSpatial.TestUtil; using Core.Components.Gis.Data; using Core.Components.Gis.Features; using Core.Components.Gis.Geometries; using Core.Components.Gis.Style; using DotSpatial.Controls; using DotSpatial.Symbology; using DotSpatial.Topology; using NUnit.Framework; namespace Core.Components.DotSpatial.Test.Converter { [TestFixture] public class MapPolygonDataConverterTest { [Test] public void DefaultConstructor_IsMapPolygonDataConverter() { // Call var converter = new MapPolygonDataConverter(); // Assert Assert.IsInstanceOf>(converter); } [Test] public void CanConvertMapData_MapPolygonData_ReturnsTrue() { // Setup var feature = new List { new MapFeature(new List { new MapGeometry(new[] { Enumerable.Empty() }) }) }; var converter = new MapPolygonDataConverter(); var polygonData = new MapPolygonData(feature, "test data"); // Call var canConvert = converter.CanConvertMapData(polygonData); // Assert Assert.IsTrue(canConvert); } [Test] public void CanConvertMapData_TestMapData_ReturnsFalse() { // Setup var converter = new MapPolygonDataConverter(); var mapData = new TestMapData("test data"); // Call var canConvert = converter.CanConvertMapData(mapData); // Assert Assert.IsFalse(canConvert); } [Test] public void Convert_RandomPolygonData_ReturnsNewFeatureSetList() { // Setup var converter = new MapPolygonDataConverter(); var random = new Random(21); var randomCount = random.Next(5, 10); var polygonPoints = new Collection(); for (int i = 0; i < randomCount; i++) { polygonPoints.Add(new Point2D(random.NextDouble(), random.NextDouble())); } var feature = new List { new MapFeature(new List { new MapGeometry(new[] { polygonPoints }) }) }; var polygonData = new MapPolygonData(feature, "test data"); // Call var mapLayers = converter.Convert(polygonData); // Assert Assert.IsInstanceOf>(mapLayers); var layer = mapLayers[0]; Assert.AreEqual(1, layer.DataSet.Features.Count); Assert.IsInstanceOf(layer); Assert.AreEqual(FeatureType.Polygon, layer.DataSet.FeatureType); CollectionAssert.AreNotEqual(polygonData.Features.First().MapGeometries.First().PointCollections, layer.DataSet.Features[0].Coordinates); } [Test] public void Convert_MultipleFeatures_ConvertsAllFeatures() { // Setup var converter = new MapPolygonDataConverter(); var features = new List { new MapFeature(Enumerable.Empty()), new MapFeature(Enumerable.Empty()), new MapFeature(Enumerable.Empty()) }; var polygonData = new MapPolygonData(features, "test"); // Call var mapLayers = converter.Convert(polygonData); // Assert Assert.AreEqual(1, mapLayers.Count); var layer = mapLayers[0]; Assert.AreEqual(features.Count, layer.DataSet.Features.Count); } [Test] public void Convert_MultipleGeometriesInFeature_ReturnsOneFeatureWithAllGeometries() { // Setup var converter = new MapPolygonDataConverter(); var features = new List { new MapFeature(new List { new MapGeometry(new[] { new[] { new Point2D(1.0, 2.0), new Point2D(2.0, 1.0), } }), new MapGeometry(new[] { new[] { new Point2D(2.0, 2.0), new Point2D(3.0, 2.0), } }), new MapGeometry(new[] { new[] { new Point2D(1.0, 3.0), new Point2D(1.0, 4.0), } }), new MapGeometry(new[] { new[] { new Point2D(3.0, 2.0), new Point2D(4.0, 1.0), } }) }) }; var geometries = features.First().MapGeometries.ToArray(); var polygonData = new MapPolygonData(features, "test"); // Call var mapLayers = converter.Convert(polygonData); // Assert Assert.AreEqual(1, mapLayers.Count); var layer = mapLayers[0]; Assert.AreEqual(features.Count, layer.DataSet.Features.Count); layer.DataSet.InitializeVertices(); var layerGeometries = layer.DataSet.ShapeIndices.First().Parts; Assert.AreEqual(geometries.Length, layerGeometries.Count); } [Test] public void Convert_DataNull_ThrowsArgumentNullException() { // Setup var testConverter = new MapPolygonDataConverter(); // Call TestDelegate test = () => testConverter.Convert(null); // Assert TestHelper.AssertThrowsArgumentExceptionAndTestMessage(test, "Null data cannot be converted into feature sets."); } [Test] public void Convert_DataCannotBeConverted_ThrowsArgumentException() { // Setup var testConverter = new MapPolygonDataConverter(); var testMapData = new TestMapData("test data"); var expectedMessage = string.Format("The data of type {0} cannot be converted by this converter.", testMapData.GetType()); // Precondition Assert.IsFalse(testConverter.CanConvertMapData(testMapData)); // Call TestDelegate test = () => testConverter.Convert(testMapData); // Assert TestHelper.AssertThrowsArgumentExceptionAndTestMessage(test, expectedMessage); } [Test] [TestCase(true)] [TestCase(false)] public void Convert_DataIsVisible_LayerIsVisibleSameAsData(bool isVisible) { // Setup var converter = new MapPolygonDataConverter(); var data = new MapPolygonData(Enumerable.Empty(), "test") { IsVisible = isVisible }; // Call var layers = converter.Convert(data); // Assert Assert.AreEqual(isVisible, layers.First().IsVisible); } [Test] public void Convert_DataName_LayerNameSameAsData() { // Setup var name = ""; var converter = new MapPolygonDataConverter(); var data = new MapPolygonData(Enumerable.Empty(), name); // Call var layers = converter.Convert(data); // Assert var layer = layers.First() as MapPolygonLayer; Assert.AreEqual(name, layer.Name); } [Test] [TestCase(KnownColor.AliceBlue)] [TestCase(KnownColor.Azure)] [TestCase(KnownColor.Beige)] public void Convert_WithDifferentFillColors_AppliesStyleToLayer(KnownColor color) { // Setup var converter = new MapPolygonDataConverter(); var expectedColor = Color.FromKnownColor(color); var style = new PolygonStyle(expectedColor, Color.AliceBlue, 3); var data = new MapPolygonData(Enumerable.Empty(), "test") { Style = style }; // Call var layers = converter.Convert(data); // Assert var layer = (MapPolygonLayer)layers.First(); AssertAreEqual(new PolygonSymbolizer(expectedColor, Color.AliceBlue, 3), layer.Symbolizer); } [Test] [TestCase(KnownColor.AliceBlue)] [TestCase(KnownColor.Azure)] [TestCase(KnownColor.Beige)] public void Convert_WithDifferentStrokeColors_AppliesStyleToLayer(KnownColor color) { // Setup var converter = new MapPolygonDataConverter(); var expectedColor = Color.FromKnownColor(color); var style = new PolygonStyle(Color.AliceBlue, expectedColor, 3); var data = new MapPolygonData(Enumerable.Empty(), "test") { Style = style }; // Call var layers = converter.Convert(data); // Assert var layer = (MapPolygonLayer)layers.First(); AssertAreEqual(new PolygonSymbolizer(Color.AliceBlue, expectedColor, 3), layer.Symbolizer); } [Test] [TestCase(1)] [TestCase(5)] [TestCase(7)] public void Convert_WithDifferentWidths_AppliesStyleToLayer(int width) { // Setup var converter = new MapPolygonDataConverter(); var style = new PolygonStyle(Color.AliceBlue, Color.AliceBlue, width); var data = new MapPolygonData(Enumerable.Empty(), "test") { Style = style }; // Call var layers = converter.Convert(data); // Assert var layer = (MapPolygonLayer)layers.First(); AssertAreEqual(new PolygonSymbolizer(Color.AliceBlue, Color.AliceBlue, width), layer.Symbolizer); } private void AssertAreEqual(IPolygonSymbolizer firstSymbolizer, IPolygonSymbolizer secondSymbolizer) { var firstSymbols = firstSymbolizer.Patterns; var secondSymbols = secondSymbolizer.Patterns; Assert.AreEqual(firstSymbols.Count, secondSymbols.Count, "Unequal amount of strokes defined."); for (var i = 0; i < firstSymbols.Count; i++) { var firstStroke = (SimplePattern)firstSymbols[i]; var secondStroke = (SimplePattern)secondSymbols[i]; Assert.AreEqual(firstStroke.FillColor, secondStroke.FillColor); Assert.AreEqual(firstStroke.Outline.GetFillColor(), secondStroke.Outline.GetFillColor()); Assert.AreEqual(firstStroke.Outline.GetWidth(), secondStroke.Outline.GetWidth()); } } } }