public void ReadShapeAtOffset_ReadPoint_shouldReturnCorrectValue() { // Arrange. IGeometryFactory factory = new GeometryFactory(); m_TmpFile = new TempFileWriter("shape.shp", ShpFiles.Read("point_ed50_geo")); m_Reader = new IO.ShapeFile.Extended.ShapeReader(m_TmpFile.Path); long[] shapeOffsets = { 100, 128, 156 }; double[,] expectedCoordinates = { { 34.282930701329349, 31.851167389309651 }, { 34.145260222088822, 31.864369159253059 }, { 34.181721116813314, 31.920632180204553 } }; // Act. for (int i = 0; i < shapeOffsets.Length; i++) { IGeometry geo = m_Reader.ReadShapeAtOffset(shapeOffsets[i], factory); // Assert. Assert.IsNotNull(geo); Assert.IsTrue(geo.IsValid); Assert.IsInstanceOf <IPoint>(geo); IPoint givenPoint = geo as IPoint; HelperMethods.AssertDoubleValuesEqual(givenPoint.X, expectedCoordinates[i, 0]); HelperMethods.AssertDoubleValuesEqual(givenPoint.Y, expectedCoordinates[i, 1]); } }
public void ReadShapeAtOffset_ReadPolygon_shouldReturnCorrectValue() { // Arrange. IGeometryFactory factory = new GeometryFactory(); m_TmpFile = new TempFileWriter("shape.shp", ShpFiles.Read("polygon_ed50_geo")); m_Reader = new IO.ShapeFile.Extended.ShapeReader(m_TmpFile.Path); long[] shapeOffsets = { 100, 252 }; Coordinate[,] expectedLines = new Coordinate[, ] { { new Coordinate(33.719047819505683, 31.989469320254013), new Coordinate(33.730049025918099, 32.025301664150398), new Coordinate(33.771538712027194, 32.008956957757299), new Coordinate(33.78096814177016, 31.993555297099103), new Coordinate(33.744507207486457, 31.928805665809271), new Coordinate(33.719047819505683, 31.989469320254013) }, { new Coordinate(33.821829475819285, 32.051075573685317), new Coordinate(33.860176141775888, 32.072449163771559), new Coordinate(33.927125440097875, 32.054847113210094), new Coordinate(33.929011051318348, 31.97878189417845), new Coordinate(33.819000337359398, 31.97406740944362), new Coordinate(33.821829475819285, 32.051075573685317) } }; // Act. for (int i = 0; i < shapeOffsets.Length; i++) { IGeometry geo = m_Reader.ReadShapeAtOffset(shapeOffsets[i], factory); // Assert. Assert.IsNotNull(geo); Assert.IsTrue(geo.IsValid); Assert.IsInstanceOf <IPolygon>(geo); IPolygon givenPoly = geo as IPolygon; Assert.IsNotNull(givenPoly.ExteriorRing); Assert.AreSame(givenPoly.ExteriorRing, givenPoly.Shell); Assert.AreEqual(givenPoly.Shell.Coordinates.Length, expectedLines.GetLength(1)); ILineString givenLine = givenPoly.Shell; for (int j = 0; j < givenLine.Coordinates.Length; j++) { Coordinate currPoint = givenLine.Coordinates[j]; HelperMethods.AssertDoubleValuesEqual(currPoint.X, expectedLines[i, j].X); HelperMethods.AssertDoubleValuesEqual(currPoint.Y, expectedLines[i, j].Y); } } }
public void ReadShapeAtOffset_ReadAllPolygonsFromUnifiedWithNullAtEnd_ShouldReturnCorrectValues() { // Arrange. GeometryFactory factory = new GeometryFactory(); m_TmpFile = new TempFileWriter(".shp", ShpFiles.Read("UnifiedChecksMaterialNullAtEnd")); m_Reader = new IO.ShapeFile.Extended.ShapeReader(m_TmpFile.Path); var expectedResult = new Coordinate[][] { new Coordinate[] { new Coordinate(-0.815656565656566, -0.439393939393939), new Coordinate(-0.353535353535354, -0.795454545454545), new Coordinate(-0.888888888888889, -0.929292929292929), new Coordinate(-1.151515151515152, -0.419191919191919), new Coordinate(-0.815656565656566, -0.439393939393939), }, new Coordinate[] { new Coordinate(0.068181818181818, 0.578282828282829), new Coordinate(0.421717171717172, 0.070707070707071), new Coordinate(-0.457070707070707, 0.080808080808081), new Coordinate(0.068181818181818, 0.578282828282829), } }; long[] offsets = { 100, 236 }; // Act. for (int i = 0; i < offsets.Length; i++) { var geo = m_Reader.ReadShapeAtOffset(offsets[i], factory); // Assert. Assert.IsNotNull(geo); Assert.IsTrue(geo.IsValid); Assert.IsInstanceOf <Polygon>(geo); var givenPoly = geo as Polygon; Assert.IsNotNull(givenPoly.ExteriorRing); Assert.AreSame(givenPoly.ExteriorRing, givenPoly.Shell); Assert.AreEqual(givenPoly.Shell.Coordinates.Length, expectedResult[i].Length); LineString givenLine = givenPoly.Shell; for (int j = 0; j < givenLine.Coordinates.Length; j++) { var currPoint = givenLine.Coordinates[j]; HelperMethods.AssertDoubleValuesEqual(currPoint.X, expectedResult[i][j].X); HelperMethods.AssertDoubleValuesEqual(currPoint.Y, expectedResult[i][j].Y); } } }
public void ReadShapeAtOffset_SendOffsetAtEndOfFile_shouldThrowException() { // Arrange. IGeometryFactory factory = new GeometryFactory(); m_TmpFile = new TempFileWriter("polygon_intersecting_line.shp", ShpFiles.Read("polygon intersecting line")); m_Reader = new IO.ShapeFile.Extended.ShapeReader(m_TmpFile.Path); // Act. m_Reader.ReadShapeAtOffset(ShpFiles.Read("polygon intersecting line").Length, factory); }
public void ReadShapeAtOffset_TryReadAfterDisposed_shouldThrowException() { // Arrange. IGeometryFactory factory = new GeometryFactory(); m_TmpFile = new TempFileWriter("shape.shp", ShpFiles.Read("line_wgs84_geo")); m_Reader = new IO.ShapeFile.Extended.ShapeReader(m_TmpFile.Path); m_Reader.Dispose(); m_Reader.ReadShapeAtOffset(108, factory); }
public void ReadShapeAtOffset_TryReadAfterDisposed_shouldThrowException() { // Arrange. GeometryFactory factory = new GeometryFactory(); m_TmpFile = new TempFileWriter(".shp", ShpFiles.Read("line_wgs84_geo")); m_Reader = new IO.ShapeFile.Extended.ShapeReader(m_TmpFile.Path); m_Reader.Dispose(); Assert.Catch <InvalidOperationException>(() => { m_Reader.ReadShapeAtOffset(108, factory); }); }
public void ReadShapeAtOffset_SendNegativeOffset_shouldThrowException() { // Arrange. GeometryFactory factory = new GeometryFactory(); m_TmpFile = new TempFileWriter(".shp", ShpFiles.Read("polygon intersecting line")); m_Reader = new IO.ShapeFile.Extended.ShapeReader(m_TmpFile.Path); // Act. Assert.Catch <IndexOutOfRangeException>(() => { m_Reader.ReadShapeAtOffset(-1, factory); }); }
public void ReadShapeAtOffset_ReadLines_shouldReturnCorrectValue() { // Arrange. IGeometryFactory factory = new GeometryFactory(); m_TmpFile = new TempFileWriter("shape.shp", ShpFiles.Read("line_wgs84_geo")); m_Reader = new IO.ShapeFile.Extended.ShapeReader(m_TmpFile.Path); long[] shapeOffsets = { 100, 236 }; Coordinate[,] expectedLines = new Coordinate[, ] { { new Coordinate(34.574599590903837, 31.884368958893564), new Coordinate(34.57648553272869, 31.803273460424684), new Coordinate(34.628034609274806, 31.875882220681703), new Coordinate(34.573027972716453, 31.895998933480186), new Coordinate(34.582143358203268, 31.886883547993374) }, { new Coordinate(34.448555812275849, 31.864880893370035), new Coordinate(34.396692412092257, 31.778756216701534), new Coordinate(34.468672525074325, 31.794158074937872), new Coordinate(34.484703030585621, 31.844135533296601), new Coordinate(34.518021336158107, 31.838163384184551) } }; // Act. for (int i = 0; i < shapeOffsets.Length; i++) { IGeometry geo = m_Reader.ReadShapeAtOffset(shapeOffsets[i], factory); // Assert. Assert.IsNotNull(geo); Assert.IsTrue(geo.IsValid); Assert.IsInstanceOf <ILineString>(geo); ILineString givenLine = geo as ILineString; for (int j = 0; j < givenLine.Coordinates.Length; j++) { Coordinate currPoint = givenLine.Coordinates[j]; HelperMethods.AssertDoubleValuesEqual(currPoint.X, expectedLines[i, j].X); HelperMethods.AssertDoubleValuesEqual(currPoint.Y, expectedLines[i, j].Y); } } }
public void ReadShapeAtOffset_ReadPolygonWithIntersectingLine_shouldReturnInvalidGeo() { // Arrange. IGeometryFactory factory = new GeometryFactory(); m_TmpFile = new TempFileWriter("polygon_intersecting_line.shp", ShpFiles.Read("polygon intersecting line")); m_Reader = new IO.ShapeFile.Extended.ShapeReader(m_TmpFile.Path); long[] shapeOffsets = { 100, 236 }; bool[] expectedValidityResults = new bool[] { false, true }; // Act. for (int i = 0; i < shapeOffsets.Length; i++) { IGeometry geo = m_Reader.ReadShapeAtOffset(shapeOffsets[i], factory); // Assert. Assert.IsNotNull(geo); Assert.AreEqual(geo.IsValid, expectedValidityResults[i]); } }
public void ReadShapeAtOffset_ReadPolygon_shouldReturnCorrectValue() { // Arrange. IGeometryFactory factory = new GeometryFactory(); m_TmpFile = new TempFileWriter("shape.shp", ShpFiles.Read("polygon_ed50_geo")); m_Reader = new IO.ShapeFile.Extended.ShapeReader(m_TmpFile.Path); long[] shapeOffsets = { 100, 252 }; Coordinate[,] expectedLines = new Coordinate[,] { { new Coordinate(33.719047819505683, 31.989469320254013), new Coordinate(33.730049025918099, 32.025301664150398), new Coordinate(33.771538712027194, 32.008956957757299), new Coordinate(33.78096814177016, 31.993555297099103), new Coordinate(33.744507207486457, 31.928805665809271), new Coordinate(33.719047819505683, 31.989469320254013) }, { new Coordinate(33.821829475819285, 32.051075573685317), new Coordinate(33.860176141775888, 32.072449163771559), new Coordinate(33.927125440097875, 32.054847113210094), new Coordinate(33.929011051318348, 31.97878189417845), new Coordinate(33.819000337359398, 31.97406740944362), new Coordinate(33.821829475819285, 32.051075573685317) } }; // Act. for (int i = 0; i < shapeOffsets.Length; i++) { IGeometry geo = m_Reader.ReadShapeAtOffset(shapeOffsets[i], factory); // Assert. Assert.IsNotNull(geo); Assert.IsTrue(geo.IsValid); Assert.IsInstanceOf<IPolygon>(geo); IPolygon givenPoly = geo as IPolygon; Assert.IsNotNull(givenPoly.ExteriorRing); Assert.AreSame(givenPoly.ExteriorRing, givenPoly.Shell); Assert.AreEqual(givenPoly.Shell.Coordinates.Length, expectedLines.GetLength(1)); ILineString givenLine = givenPoly.Shell; for (int j = 0; j < givenLine.Coordinates.Length; j++) { Coordinate currPoint = givenLine.Coordinates[j]; HelperMethods.AssertDoubleValuesEqual(currPoint.X, expectedLines[i, j].X); HelperMethods.AssertDoubleValuesEqual(currPoint.Y, expectedLines[i, j].Y); } } }
public void ReadShapeAtOffset_SendOffsetAtEndOfFile_shouldThrowException() { // Arrange. IGeometryFactory factory = new GeometryFactory(); m_TmpFile = new TempFileCloudUploader("polygon_intersecting_line.shp", ShpFiles.Read("polygon intersecting line")); m_Reader = new IO.ShapeFile.Extended.ShapeReader(new ShapefileStreamProviderRegistry(GetProvider(m_TmpFile.Path), null, true, false)); // Act. m_Reader.ReadShapeAtOffset(ShpFiles.Read("polygon intersecting line").Length, factory); }
public void ReadShapeAtOffset_TryReadAfterDisposed_shouldThrowException() { // Arrange. IGeometryFactory factory = new GeometryFactory(); m_TmpFile = new TempFileCloudUploader("shape.shp", ShpFiles.Read("line_wgs84_geo")); m_Reader = new IO.ShapeFile.Extended.ShapeReader(new ShapefileStreamProviderRegistry(GetProvider(m_TmpFile.Path), null, true, false)); m_Reader.Dispose(); m_Reader.ReadShapeAtOffset(108, factory); }
public void ReadShapeAtOffset_ReadAllPolygonsFromUnifiedWithNullAtEnd_ShouldReturnCorrectValues() { // Arrange. IGeometryFactory factory = new GeometryFactory(); m_TmpFile = new TempFileWriter("shape.shp", ShpFiles.Read("UnifiedChecksMaterialNullAtEnd")); m_Reader = new IO.ShapeFile.Extended.ShapeReader(m_TmpFile.Path); Coordinate[][] expectedResult = new Coordinate[][] { new Coordinate[] { new Coordinate(-0.815656565656566, -0.439393939393939), new Coordinate(-0.353535353535354, -0.795454545454545), new Coordinate(-0.888888888888889,-0.929292929292929), new Coordinate(-1.151515151515152, -0.419191919191919), new Coordinate(-0.815656565656566,-0.439393939393939), }, new Coordinate[] { new Coordinate(0.068181818181818,0.578282828282829), new Coordinate(0.421717171717172,0.070707070707071), new Coordinate(-0.457070707070707,0.080808080808081), new Coordinate(0.068181818181818,0.578282828282829), } }; long[] offsets = { 100, 236 }; // Act. for (int i = 0; i < offsets.Length; i++) { IGeometry geo = m_Reader.ReadShapeAtOffset(offsets[i], factory); // Assert. Assert.IsNotNull(geo); Assert.IsTrue(geo.IsValid); Assert.IsInstanceOf<IPolygon>(geo); IPolygon givenPoly = geo as IPolygon; Assert.IsNotNull(givenPoly.ExteriorRing); Assert.AreSame(givenPoly.ExteriorRing, givenPoly.Shell); Assert.AreEqual(givenPoly.Shell.Coordinates.Length, expectedResult[i].Length); ILineString givenLine = givenPoly.Shell; for (int j = 0; j < givenLine.Coordinates.Length; j++) { Coordinate currPoint = givenLine.Coordinates[j]; HelperMethods.AssertDoubleValuesEqual(currPoint.X, expectedResult[i][j].X); HelperMethods.AssertDoubleValuesEqual(currPoint.Y, expectedResult[i][j].Y); } } }
public void ReadShapeAtOffset_ReadLines_shouldReturnCorrectValue() { // Arrange. IGeometryFactory factory = new GeometryFactory(); m_TmpFile = new TempFileWriter("shape.shp", ShpFiles.Read("line_wgs84_geo")); m_Reader = new IO.ShapeFile.Extended.ShapeReader(m_TmpFile.Path); long[] shapeOffsets = { 100, 236 }; Coordinate[,] expectedLines = new Coordinate[,] { { new Coordinate(34.574599590903837, 31.884368958893564), new Coordinate(34.57648553272869, 31.803273460424684), new Coordinate(34.628034609274806, 31.875882220681703), new Coordinate(34.573027972716453, 31.895998933480186), new Coordinate(34.582143358203268, 31.886883547993374) }, { new Coordinate(34.448555812275849, 31.864880893370035), new Coordinate(34.396692412092257, 31.778756216701534), new Coordinate(34.468672525074325, 31.794158074937872), new Coordinate(34.484703030585621, 31.844135533296601), new Coordinate(34.518021336158107, 31.838163384184551) } }; // Act. for (int i = 0; i < shapeOffsets.Length; i++) { IGeometry geo = m_Reader.ReadShapeAtOffset(shapeOffsets[i], factory); // Assert. Assert.IsNotNull(geo); Assert.IsTrue(geo.IsValid); Assert.IsInstanceOf<ILineString>(geo); ILineString givenLine = geo as ILineString; for (int j = 0; j < givenLine.Coordinates.Length; j++) { Coordinate currPoint = givenLine.Coordinates[j]; HelperMethods.AssertDoubleValuesEqual(currPoint.X, expectedLines[i, j].X); HelperMethods.AssertDoubleValuesEqual(currPoint.Y, expectedLines[i, j].Y); } } }
public void ReadShapeAtOffset_ReadPoint_shouldReturnCorrectValue() { // Arrange. IGeometryFactory factory = new GeometryFactory(); m_TmpFile = new TempFileWriter("shape.shp", ShpFiles.Read("point_ed50_geo")); m_Reader = new IO.ShapeFile.Extended.ShapeReader(m_TmpFile.Path); long[] shapeOffsets = { 100, 128, 156 }; double[,] expectedCoordinates = {{ 34.282930701329349, 31.851167389309651 }, { 34.145260222088822, 31.864369159253059 }, { 34.181721116813314, 31.920632180204553 }}; // Act. for (int i = 0; i < shapeOffsets.Length; i++) { IGeometry geo = m_Reader.ReadShapeAtOffset(shapeOffsets[i], factory); // Assert. Assert.IsNotNull(geo); Assert.IsTrue(geo.IsValid); Assert.IsInstanceOf<IPoint>(geo); IPoint givenPoint = geo as IPoint; HelperMethods.AssertDoubleValuesEqual(givenPoint.X, expectedCoordinates[i, 0]); HelperMethods.AssertDoubleValuesEqual(givenPoint.Y, expectedCoordinates[i, 1]); } }