// // System.Drawing.GraphicsPath unit tests // // Authors: // Sebastien Pouliot // // Copyright (C) 2006 Novell, Inc (http://www.novell.com) // // Permission is hereby granted, free of charge, to any person obtaining // a copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to // permit persons to whom the Software is furnished to do so, subject to // the following conditions: // // The above copyright notice and this permission notice shall be // included in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, // EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND // NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE // LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION // OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION // WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. // using System; using SC = System.ComponentModel; using System.Drawing; using System.Drawing.Drawing2D; using System.Security.Permissions; using NUnit.Framework; namespace MonoTests.System.Drawing.Drawing2D { [TestFixture] [SecurityPermission (SecurityAction.Deny, UnmanagedCode = true)] public class GraphicsPathTest { private const float Pi4 = (float) (Math.PI / 4); // let's tolerate a few differences private const float Delta = 0.0003f; private void CheckEmpty (string prefix, GraphicsPath gp) { Assert.AreEqual (0, gp.PathData.Points.Length, "PathData.Points"); Assert.AreEqual (0, gp.PathData.Types.Length, "PathData.Types"); Assert.AreEqual (0, gp.PointCount, prefix + "PointCount"); } [Test] public void Constructor_InvalidFillMode () { GraphicsPath gp = new GraphicsPath ((FillMode) Int32.MinValue); Assert.AreEqual (Int32.MinValue, (int) gp.FillMode, "FillMode"); CheckEmpty ("InvalidFillMode.", gp); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void Constructor_Point_Null_Byte () { new GraphicsPath ((Point[]) null, new byte[1]); } [Test] [ExpectedException (typeof (NullReferenceException))] public void Constructor_Point_Byte_Null () { new GraphicsPath (new Point[1], null); } [Test] [ExpectedException (typeof (ArgumentException))] public void Constructor_Point_Byte_LengthMismatch () { new GraphicsPath (new Point[1], new byte [2]); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void Constructor_PointF_Null_Byte () { new GraphicsPath ((PointF[])null, new byte [1]); } [Test] [ExpectedException (typeof (NullReferenceException))] public void Constructor_PointF_Byte_Null () { new GraphicsPath ( new PointF[1], null); } [Test] [ExpectedException (typeof (ArgumentException))] public void Constructor_PointF_Byte_LengthMismatch () { new GraphicsPath (new PointF[2], new byte [1]); } [Test] public void GraphicsPath_Empty () { GraphicsPath gp = new GraphicsPath (); Assert.AreEqual (FillMode.Alternate, gp.FillMode, "Empty.FillMode"); CheckEmpty ("Empty.", gp); GraphicsPath clone = (GraphicsPath) gp.Clone (); Assert.AreEqual (FillMode.Alternate, gp.FillMode, "Clone.FillMode"); CheckEmpty ("Clone.", gp); } [Test] [ExpectedException (typeof (ArgumentException))] public void GraphicsPath_Empty_PathPoints () { Assert.IsNull (new GraphicsPath ().PathPoints); } [Test] [ExpectedException (typeof (ArgumentException))] public void GraphicsPath_Empty_PathTypes () { Assert.IsNull (new GraphicsPath ().PathTypes); } [Test] [ExpectedException (typeof (SC.InvalidEnumArgumentException))] public void FillMode_Invalid () { // constructor accept an invalid FillMode GraphicsPath gp = new GraphicsPath ((FillMode) Int32.MaxValue); Assert.AreEqual (Int32.MaxValue, (int) gp.FillMode, "MaxValue"); // but you can't set the FillMode property to an invalid value ;-) gp.FillMode = (FillMode) Int32.MaxValue; } [Test] public void PathData_CannotChange () { GraphicsPath gp = new GraphicsPath (); gp.AddRectangle (new Rectangle (1, 1, 2, 2)); Assert.AreEqual (1f, gp.PathData.Points[0].X, "Points[0].X"); Assert.AreEqual (1f, gp.PathData.Points[0].Y, "Points[0].Y"); // now try to change the first point gp.PathData.Points[0] = new Point (0, 0); // the changes isn't reflected in the property Assert.AreEqual (1f, gp.PathData.Points[0].X, "Points[0].X-1"); Assert.AreEqual (1f, gp.PathData.Points[0].Y, "Points[0].Y-1"); } [Test] public void PathPoints_CannotChange () { GraphicsPath gp = new GraphicsPath (); gp.AddRectangle (new Rectangle (1, 1, 2, 2)); Assert.AreEqual (1f, gp.PathPoints[0].X, "PathPoints[0].X"); Assert.AreEqual (1f, gp.PathPoints[0].Y, "PathPoints[0].Y"); // now try to change the first point gp.PathPoints[0] = new Point (0, 0); // the changes isn't reflected in the property Assert.AreEqual (1f, gp.PathPoints[0].X, "PathPoints[0].X-1"); Assert.AreEqual (1f, gp.PathPoints[0].Y, "PathPoints[0].Y-1"); } [Test] public void PathTypes_CannotChange () { GraphicsPath gp = new GraphicsPath (); gp.AddRectangle (new Rectangle (1, 1, 2, 2)); Assert.AreEqual (0, gp.PathTypes[0], "PathTypes[0]"); // now try to change the first type gp.PathTypes[0] = 1; // the changes isn't reflected in the property Assert.AreEqual (0, gp.PathTypes[0], "PathTypes[0]-1"); } private void CheckArc (GraphicsPath path) { Assert.AreEqual (4, path.PathPoints.Length, "PathPoints"); Assert.AreEqual (4, path.PathTypes.Length, "PathPoints"); Assert.AreEqual (4, path.PathData.Points.Length, "PathData"); // GetBounds (well GdipGetPathWorldBounds) isn't implemented RectangleF rect = path.GetBounds (); Assert.AreEqual (2.999624f, rect.X, "Bounds.X"); Assert.AreEqual (2.013707f, rect.Y, "Bounds.Y"); Assert.AreEqual (0f, rect.Width, Delta, "Bounds.Width"); Assert.AreEqual (0.01370478f, rect.Height, "Bounds.Height"); Assert.AreEqual (2.999906f, path.PathData.Points[0].X, "Points[0].X"); Assert.AreEqual (2.013707f, path.PathPoints[0].Y, "Points[0].Y"); Assert.AreEqual (0, path.PathData.Types[0], "Types[0]"); Assert.AreEqual (2.999843f, path.PathData.Points[1].X, "Points[1].X"); Assert.AreEqual (2.018276f, path.PathPoints[1].Y, "Points[1].Y"); Assert.AreEqual (3, path.PathTypes[1], "Types[1]"); Assert.AreEqual (2.99974918f, path.PathData.Points[2].X, "Points[2].X"); Assert.AreEqual (2.02284455f, path.PathPoints[2].Y, "Points[2].Y"); Assert.AreEqual (3, path.PathData.Types[2], "Types[2]"); Assert.AreEqual (2.999624f, path.PathData.Points[3].X, "Points[3].X"); Assert.AreEqual (2.027412f, path.PathPoints[3].Y, "Points[3].Y"); Assert.AreEqual (3, path.PathTypes[3], "Types[3]"); } [Test] public void AddArc_Rectangle () { GraphicsPath gp = new GraphicsPath (); gp.AddArc (new Rectangle (1, 1, 2, 2), Pi4, Pi4); CheckArc (gp); } [Test] public void AddArc_RectangleF () { GraphicsPath gp = new GraphicsPath (); gp.AddArc (new RectangleF (1f, 1f, 2f, 2f), Pi4, Pi4); CheckArc (gp); } [Test] public void AddArc_Int () { GraphicsPath gp = new GraphicsPath (); gp.AddArc (1, 1, 2, 2, Pi4, Pi4); CheckArc (gp); } [Test] public void AddArc_Float () { GraphicsPath gp = new GraphicsPath (); gp.AddArc (1f, 1f, 2f, 2f, Pi4, Pi4); CheckArc (gp); } private void CheckBezier (GraphicsPath path) { Assert.AreEqual (4, path.PointCount, "PointCount"); Assert.AreEqual (4, path.PathPoints.Length, "PathPoints"); Assert.AreEqual (4, path.PathTypes.Length, "PathPoints"); Assert.AreEqual (4, path.PathData.Points.Length, "PathData"); // GetBounds (well GdipGetPathWorldBounds) isn't implemented RectangleF rect = path.GetBounds (); Assert.AreEqual (1f, rect.X, "Bounds.X"); Assert.AreEqual (1f, rect.Y, "Bounds.Y"); Assert.AreEqual (3f, rect.Width, "Bounds.Width"); Assert.AreEqual (3f, rect.Height, "Bounds.Height"); Assert.AreEqual (1f, path.PathData.Points[0].X, "Points[0].X"); Assert.AreEqual (1f, path.PathPoints[0].Y, "Points[0].Y"); Assert.AreEqual (0, path.PathData.Types[0], "Types[0]"); Assert.AreEqual (2f, path.PathData.Points[1].X, "Points[1].X"); Assert.AreEqual (2f, path.PathPoints[1].Y, "Points[1].Y"); Assert.AreEqual (3, path.PathTypes[1], "Types[1]"); Assert.AreEqual (3f, path.PathData.Points[2].X, "Points[2].X"); Assert.AreEqual (3f, path.PathPoints[2].Y, "Points[2].Y"); Assert.AreEqual (3, path.PathData.Types[2], "Types[2]"); Assert.AreEqual (4f, path.PathData.Points[3].X, "Points[3].X"); Assert.AreEqual (4f, path.PathPoints[3].Y, "Points[3].Y"); Assert.AreEqual (3, path.PathTypes[3], "Types[3]"); } [Test] public void AddBezier_Point () { GraphicsPath gp = new GraphicsPath (); gp.AddBezier (new Point (1, 1), new Point (2, 2), new Point (3, 3), new Point (4, 4)); CheckBezier (gp); } [Test] public void AddBezier_PointF () { GraphicsPath gp = new GraphicsPath (); gp.AddBezier (new PointF (1f, 1f), new PointF (2f, 2f), new PointF (3f, 3f), new PointF (4f, 4f)); CheckBezier (gp); } [Test] public void AddBezier_Int () { GraphicsPath gp = new GraphicsPath (); gp.AddBezier (1, 1, 2, 2, 3, 3, 4, 4); CheckBezier (gp); } [Test] public void AddBezier_Float () { GraphicsPath gp = new GraphicsPath (); gp.AddBezier (1f, 1f, 2f, 2f, 3f, 3f, 4f, 4f); CheckBezier (gp); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void AddBeziers_Point_Null () { new GraphicsPath ().AddBeziers ((Point[]) null); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddBeziers_3_Points () { GraphicsPath gp = new GraphicsPath (); gp.AddBeziers (new Point[3] { new Point (1, 1), new Point (2, 2), new Point (3, 3) }); } [Test] public void AddBeziers_Point () { GraphicsPath gp = new GraphicsPath (); gp.AddBeziers (new Point[4] { new Point (1, 1), new Point (2, 2), new Point (3, 3), new Point (4, 4) }); CheckBezier (gp); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void AddBeziers_PointF_Null () { new GraphicsPath ().AddBeziers ((PointF[]) null); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddBeziers_3_PointFs () { GraphicsPath gp = new GraphicsPath (); gp.AddBeziers (new PointF[3] { new PointF (1f, 1f), new PointF (2f, 2f), new PointF (3f, 3f) }); } [Test] public void AddBeziers_PointF () { GraphicsPath gp = new GraphicsPath (); gp.AddBeziers (new PointF[4] { new PointF (1f, 1f), new PointF (2f, 2f), new PointF (3f, 3f), new PointF (4f, 4f) }); CheckBezier (gp); } private void CheckEllipse (GraphicsPath path) { Assert.AreEqual (13, path.PathPoints.Length, "PathPoints"); Assert.AreEqual (13, path.PathTypes.Length, "PathPoints"); Assert.AreEqual (13, path.PathData.Points.Length, "PathData"); // GetBounds (well GdipGetPathWorldBounds) isn't implemented RectangleF rect = path.GetBounds (); Assert.AreEqual (1f, rect.X, "Bounds.X"); Assert.AreEqual (1f, rect.Y, "Bounds.Y"); Assert.AreEqual (2f, rect.Width, "Bounds.Width"); Assert.AreEqual (2f, rect.Height, "Bounds.Height"); Assert.AreEqual (0, path.PathData.Types[0], "PathData.Types[0]"); for (int i = 1; i < 12; i++) Assert.AreEqual (3, path.PathTypes[i], "PathTypes" + i.ToString ()); Assert.AreEqual (131, path.PathData.Types[12], "PathData.Types[12]"); } [Test] public void AddEllipse_Rectangle () { GraphicsPath gp = new GraphicsPath (); gp.AddEllipse (new Rectangle (1, 1, 2, 2)); CheckEllipse (gp); } [Test] public void AddEllipse_RectangleF () { GraphicsPath gp = new GraphicsPath (); gp.AddEllipse (new RectangleF (1f, 1f, 2f, 2f)); CheckEllipse (gp); } [Test] public void AddEllipse_Int () { GraphicsPath gp = new GraphicsPath (); gp.AddEllipse (1, 1, 2, 2); CheckEllipse (gp); } [Test] public void AddEllipse_Float () { GraphicsPath gp = new GraphicsPath (); gp.AddEllipse (1f, 1f, 2f, 2f); CheckEllipse (gp); } private void CheckLine (GraphicsPath path) { Assert.AreEqual (2, path.PathPoints.Length, "PathPoints"); Assert.AreEqual (2, path.PathTypes.Length, "PathPoints"); Assert.AreEqual (2, path.PathData.Points.Length, "PathData"); // GetBounds (well GdipGetPathWorldBounds) isn't implemented RectangleF rect = path.GetBounds (); Assert.AreEqual (1f, rect.X, "Bounds.X"); Assert.AreEqual (1f, rect.Y, "Bounds.Y"); Assert.AreEqual (1f, rect.Width, "Bounds.Width"); Assert.AreEqual (1f, rect.Height, "Bounds.Height"); Assert.AreEqual (1f, path.PathData.Points[0].X, "Points[0].X"); Assert.AreEqual (1f, path.PathPoints[0].Y, "Points[0].Y"); Assert.AreEqual (0, path.PathData.Types[0], "Types[0]"); Assert.AreEqual (2f, path.PathData.Points[1].X, "Points[1].X"); Assert.AreEqual (2f, path.PathPoints[1].Y, "Points[1].Y"); Assert.AreEqual (1, path.PathTypes[1], "Types[1]"); } [Test] public void AddLine_Point () { GraphicsPath gp = new GraphicsPath (); gp.AddLine (new Point (1, 1), new Point (2, 2)); CheckLine (gp); } [Test] public void AddLine_PointF () { GraphicsPath gp = new GraphicsPath (); gp.AddLine (new PointF (1f, 1f), new PointF (2f, 2f)); CheckLine (gp); } [Test] public void AddLine_Int () { GraphicsPath gp = new GraphicsPath (); gp.AddLine (1, 1, 2, 2); CheckLine (gp); } [Test] public void AddLine_Float () { GraphicsPath gp = new GraphicsPath (); gp.AddLine (1f, 1f, 2f, 2f); CheckLine (gp); } [Test] public void AddLine_SamePoint () { GraphicsPath gp = new GraphicsPath (); gp.AddLine (new Point (1, 1), new Point (1, 1)); Assert.AreEqual (2, gp.PointCount, "PointCount"); Assert.AreEqual (0, gp.PathTypes[0], "PathTypes[0]"); Assert.AreEqual (1, gp.PathTypes[1], "PathTypes[1]"); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void AddLines_Point_Null () { new GraphicsPath ().AddLines ((Point[])null); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddLines_Point_0 () { GraphicsPath gp = new GraphicsPath (); gp.AddLines (new Point[0]); CheckLine (gp); } [Test] public void AddLines_Point_1 () { GraphicsPath gp = new GraphicsPath (); gp.AddLines (new Point[1] { new Point (1, 1) }); // Special case - a line with a single point is valid Assert.AreEqual (1, gp.PointCount, "PointCount"); Assert.AreEqual (0, gp.PathTypes[0], "PathTypes[0]"); } [Test] public void AddLines_Point () { GraphicsPath gp = new GraphicsPath (); gp.AddLines (new Point[2] { new Point (1, 1), new Point (2, 2) }); CheckLine (gp); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void AddLines_PointF_Null () { new GraphicsPath ().AddLines ((PointF[]) null); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddLines_PointF_0 () { GraphicsPath gp = new GraphicsPath (); gp.AddLines (new PointF[0]); CheckLine (gp); } [Test] public void AddLines_PointF_1 () { GraphicsPath gp = new GraphicsPath (); gp.AddLines (new PointF[1] { new PointF (1f, 1f) }); // Special case - a line with a single point is valid Assert.AreEqual (1, gp.PointCount, "PointCount"); Assert.AreEqual (0, gp.PathTypes[0], "PathTypes[0]"); } [Test] public void AddLines_PointF () { GraphicsPath gp = new GraphicsPath (); gp.AddLines (new PointF[2] { new PointF (1f, 1f), new PointF (2f, 2f) }); CheckLine (gp); } private void CheckPie (GraphicsPath path) { // the number of points generated for a Pie isn't the same between Mono and MS #if false Assert.AreEqual (5, path.PathPoints.Length, "PathPoints"); Assert.AreEqual (5, path.PathTypes.Length, "PathPoints"); Assert.AreEqual (5, path.PathData.Points.Length, "PathData"); // GetBounds (well GdipGetPathWorldBounds) isn't implemented RectangleF rect = path.GetBounds (); Assert.AreEqual (2f, rect.X, "Bounds.X"); Assert.AreEqual (2f, rect.Y, "Bounds.Y"); Assert.AreEqual (0.9999058f, rect.Width, "Bounds.Width"); Assert.AreEqual (0.0274119377f, rect.Height, "Bounds.Height"); Assert.AreEqual (2f, path.PathData.Points[0].X, "Points[0].X"); Assert.AreEqual (2f, path.PathPoints[0].Y, "Points[0].Y"); Assert.AreEqual (0, path.PathData.Types[0], "Types[0]"); Assert.AreEqual (2.99990582f, path.PathData.Points[1].X, "Points[1].X"); Assert.AreEqual (2.01370716f, path.PathPoints[1].Y, "Points[1].Y"); Assert.AreEqual (1, path.PathTypes[1], "Types[1]"); Assert.AreEqual (2.99984312f, path.PathData.Points[2].X, "Points[2].X"); Assert.AreEqual (2.018276f, path.PathPoints[2].Y, "Points[2].Y"); Assert.AreEqual (3, path.PathData.Types[2], "Types[2]"); Assert.AreEqual (2.99974918f, path.PathData.Points[3].X, "Points[2].X"); Assert.AreEqual (2.02284455f, path.PathPoints[3].Y, "Points[2].Y"); Assert.AreEqual (3, path.PathData.Types[3], "Types[2]"); Assert.AreEqual (2.999624f, path.PathData.Points[4].X, "Points[3].X"); Assert.AreEqual (2.027412f, path.PathPoints[4].Y, "Points[3].Y"); Assert.AreEqual (131, path.PathTypes[4], "Types[3]"); #endif } [Test] public void AddPie_Rect () { GraphicsPath gp = new GraphicsPath (); gp.AddPie (new Rectangle (1, 1, 2, 2), Pi4, Pi4); CheckPie (gp); } [Test] public void AddPie_Int () { GraphicsPath gp = new GraphicsPath (); gp.AddPie (1, 1, 2, 2, Pi4, Pi4); CheckPie (gp); } [Test] public void AddPie_Float () { GraphicsPath gp = new GraphicsPath (); gp.AddPie (1f, 1f, 2f, 2f, Pi4, Pi4); CheckPie (gp); } private void CheckPolygon (GraphicsPath path) { // an extra point is generated by Mono (libgdiplus) #if false Assert.AreEqual (3, path.PathPoints.Length, "PathPoints"); Assert.AreEqual (3, path.PathTypes.Length, "PathPoints"); Assert.AreEqual (3, path.PathData.Points.Length, "PathData"); #endif // GetBounds (well GdipGetPathWorldBounds) isn't implemented RectangleF rect = path.GetBounds (); Assert.AreEqual (1f, rect.X, "Bounds.X"); Assert.AreEqual (1f, rect.Y, "Bounds.Y"); Assert.AreEqual (2f, rect.Width, "Bounds.Width"); Assert.AreEqual (2f, rect.Height, "Bounds.Height"); Assert.AreEqual (1f, path.PathData.Points[0].X, "Points[0].X"); Assert.AreEqual (1f, path.PathPoints[0].Y, "Points[0].Y"); Assert.AreEqual (0, path.PathData.Types[0], "Types[0]"); Assert.AreEqual (2f, path.PathData.Points[1].X, "Points[1].X"); Assert.AreEqual (2f, path.PathPoints[1].Y, "Points[1].Y"); Assert.AreEqual (1, path.PathTypes[1], "Types[1]"); Assert.AreEqual (3f, path.PathData.Points[2].X, "Points[2].X"); Assert.AreEqual (3f, path.PathPoints[2].Y, "Points[2].Y"); // the extra point change the type of the last point #if false Assert.AreEqual (129, path.PathData.Types[2], "Types[2]"); #endif } [Test] [ExpectedException (typeof (ArgumentNullException))] public void AddPolygon_Point_Null () { new GraphicsPath ().AddPolygon ((Point[]) null); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddPolygon_Point_Empty () { new GraphicsPath ().AddPolygon (new Point[0]); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddPolygon_Point_1 () { GraphicsPath gp = new GraphicsPath (); gp.AddPolygon (new Point[1] { new Point (1, 1) }); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddPolygon_Point_2 () { GraphicsPath gp = new GraphicsPath (); gp.AddPolygon (new Point[2] { new Point (1, 1), new Point (2, 2) }); } [Test] public void AddPolygon_Point_3 () { GraphicsPath gp = new GraphicsPath (); gp.AddPolygon (new Point[3] { new Point (1, 1), new Point (2, 2), new Point (3, 3) }); CheckPolygon (gp); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void AddPolygon_PointF_Null () { new GraphicsPath ().AddPolygon ((PointF[]) null); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddPolygon_PointF_Empty () { new GraphicsPath ().AddPolygon (new PointF[0]); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddPolygon_PointF_1 () { GraphicsPath gp = new GraphicsPath (); gp.AddPolygon (new PointF[1] { new PointF (1f, 1f) }); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddPolygon_PointF_2 () { GraphicsPath gp = new GraphicsPath (); gp.AddPolygon (new PointF[2] { new PointF (1f, 1f), new PointF (2f, 2f) }); } [Test] public void AddPolygon_PointF_3 () { GraphicsPath gp = new GraphicsPath (); gp.AddPolygon (new PointF[3] { new PointF (1f, 1f), new PointF (2f, 2f), new PointF (3f, 3f) }); CheckPolygon (gp); } private void CheckRectangle (GraphicsPath path, int count) { Assert.AreEqual (count, path.PathPoints.Length, "PathPoints"); Assert.AreEqual (count, path.PathTypes.Length, "PathPoints"); Assert.AreEqual (count, path.PathData.Points.Length, "PathData"); // GetBounds (well GdipGetPathWorldBounds) isn't implemented RectangleF rect = path.GetBounds (); Assert.AreEqual (1f, rect.X, "Bounds.X"); Assert.AreEqual (1f, rect.Y, "Bounds.Y"); Assert.AreEqual (2f, rect.Width, "Bounds.Width"); Assert.AreEqual (2f, rect.Height, "Bounds.Height"); // check first four points (first rectangle) Assert.AreEqual (1f, path.PathData.Points[0].X, "Points[0].X"); Assert.AreEqual (1f, path.PathPoints[0].Y, "Points[0].Y"); Assert.AreEqual (0, path.PathData.Types[0], "Types[0]"); Assert.AreEqual (3f, path.PathData.Points[1].X, "Points[1].X"); Assert.AreEqual (1f, path.PathPoints[1].Y, "Points[1].Y"); Assert.AreEqual (1, path.PathTypes[1], "Types[1]"); Assert.AreEqual (3f, path.PathData.Points[2].X, "Points[2].X"); Assert.AreEqual (3f, path.PathPoints[2].Y, "Points[2].Y"); Assert.AreEqual (1, path.PathData.Types[2], "Types[2]"); Assert.AreEqual (1f, path.PathData.Points[3].X, "Points[3].X"); Assert.AreEqual (3f, path.PathPoints[3].Y, "Points[3].Y"); Assert.AreEqual (129, path.PathTypes[3], "Types[3]"); } [Test] public void AddRectangle_Int () { GraphicsPath gp = new GraphicsPath (); gp.AddRectangle (new Rectangle (1, 1, 2, 2)); CheckRectangle (gp, 4); } [Test] public void AddRectangle_Float () { GraphicsPath gp = new GraphicsPath (); gp.AddRectangle (new RectangleF (1f, 1f, 2f, 2f)); CheckRectangle (gp, 4); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void AddRectangles_Int_Null () { GraphicsPath gp = new GraphicsPath (); gp.AddRectangles ((Rectangle[]) null); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddRectangles_Int_Empty () { GraphicsPath gp = new GraphicsPath (); gp.AddRectangles (new Rectangle[0]); CheckRectangle (gp, 4); } [Test] public void AddRectangles_Int () { GraphicsPath gp = new GraphicsPath (); gp.AddRectangles (new Rectangle[1] { new Rectangle (1, 1, 2, 2) }); CheckRectangle (gp, 4); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void AddRectangles_Float_Null () { GraphicsPath gp = new GraphicsPath (); gp.AddRectangles ((RectangleF[]) null); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddRectangles_Float_Empty () { GraphicsPath gp = new GraphicsPath (); gp.AddRectangles ( new RectangleF[0]); CheckRectangle (gp, 4); } [Test] public void AddRectangles_Float () { GraphicsPath gp = new GraphicsPath (); gp.AddRectangles (new RectangleF [1] { new RectangleF (1f, 1f, 2f, 2f) }); CheckRectangle (gp, 4); } [Test] public void AddRectangles_Two () { GraphicsPath gp = new GraphicsPath (); gp.AddRectangles (new RectangleF[2] { new RectangleF (1f, 1f, 2f, 2f), new RectangleF (2f, 2f, 1f, 1f) } ); RectangleF rect = gp.GetBounds (); Assert.AreEqual (1f, rect.X, "Bounds.X"); Assert.AreEqual (1f, rect.Y, "Bounds.Y"); Assert.AreEqual (2f, rect.Width, "Bounds.Width"); Assert.AreEqual (2f, rect.Height, "Bounds.Height"); // second rectangle is completely within the first one CheckRectangle (gp, 8); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void AddPath_Null () { new GraphicsPath ().AddPath (null, false); } [Test] public void AddPath () { GraphicsPath gpr = new GraphicsPath (); gpr.AddRectangle (new Rectangle (1, 1, 2, 2)); GraphicsPath gp = new GraphicsPath (); gp.AddPath (gpr, true); CheckRectangle (gp, 4); } private void CheckClosedCurve (GraphicsPath path) { Assert.AreEqual (10, path.PathPoints.Length, "PathPoints"); Assert.AreEqual (10, path.PathTypes.Length, "PathPoints"); Assert.AreEqual (10, path.PathData.Points.Length, "PathData"); // GetBounds (well GdipGetPathWorldBounds) isn't very precise with curves RectangleF rect = path.GetBounds (); Assert.AreEqual (0.8333333f, rect.X, 0.2f, "Bounds.X"); Assert.AreEqual (0.8333333f, rect.Y, 0.2f, "Bounds.Y"); Assert.AreEqual (2.33333278f, rect.Width, 0.4f, "Bounds.Width"); Assert.AreEqual (2.33333278f, rect.Height, 0.4f, "Bounds.Height"); Assert.AreEqual (0, path.PathData.Types[0], "PathData.Types[0]"); for (int i = 1; i < 9; i++) Assert.AreEqual (3, path.PathTypes[i], "PathTypes" + i.ToString ()); Assert.AreEqual (131, path.PathData.Types[9], "PathData.Types[9]"); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void AddClosedCurve_Point_Null () { new GraphicsPath ().AddClosedCurve ((Point[])null); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddClosedCurve_Point_0 () { GraphicsPath gp = new GraphicsPath (); gp.AddClosedCurve (new Point [0]); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddClosedCurve_Point_1 () { GraphicsPath gp = new GraphicsPath (); gp.AddClosedCurve (new Point[1] { new Point (1, 1) }); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddClosedCurve_Point_2 () { GraphicsPath gp = new GraphicsPath (); gp.AddClosedCurve (new Point[2] { new Point (1, 1), new Point (2, 2) }); } [Test] public void AddClosedCurve_Point_3 () { GraphicsPath gp = new GraphicsPath (); gp.AddClosedCurve (new Point[3] { new Point (1, 1), new Point (2, 2), new Point (3, 3) }); CheckClosedCurve (gp); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void AddClosedCurve_PointF_Null () { new GraphicsPath ().AddClosedCurve ((PointF[]) null); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddClosedCurve_PointF_0 () { GraphicsPath gp = new GraphicsPath (); gp.AddClosedCurve (new PointF[0]); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddClosedCurve_PointF_1 () { GraphicsPath gp = new GraphicsPath (); gp.AddClosedCurve (new PointF[1] { new PointF (1f, 1f) }); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddClosedCurve_PointF_2 () { GraphicsPath gp = new GraphicsPath (); gp.AddClosedCurve (new PointF[2] { new PointF (1f, 1f), new PointF (2f, 2f) }); } [Test] public void AddClosedCurve_PointF_3 () { GraphicsPath gp = new GraphicsPath (); gp.AddClosedCurve (new PointF[3] { new PointF (1f, 1f), new PointF (2f, 2f), new PointF (3f, 3f) }); CheckClosedCurve (gp); } private void CheckCurve (GraphicsPath path) { Assert.AreEqual (4, path.PathPoints.Length, "PathPoints"); Assert.AreEqual (4, path.PathTypes.Length, "PathPoints"); Assert.AreEqual (4, path.PathData.Points.Length, "PathData"); // GetBounds (well GdipGetPathWorldBounds) isn't implemented RectangleF rect = path.GetBounds (); Assert.AreEqual (1.0f, rect.X, "Bounds.X"); Assert.AreEqual (1.0f, rect.Y, "Bounds.Y"); Assert.AreEqual (1.0f, rect.Width, "Bounds.Width"); Assert.AreEqual (1.0f, rect.Height, "Bounds.Height"); Assert.AreEqual (1f, path.PathData.Points[0].X, "Points[0].X"); Assert.AreEqual (1f, path.PathPoints[0].Y, "Points[0].Y"); Assert.AreEqual (0, path.PathData.Types[0], "Types[0]"); // Mono has wrong? results #if false Assert.AreEqual (1.16666663f, path.PathData.Points[1].X, "Points[1].X"); Assert.AreEqual (1.16666663f, path.PathPoints[1].Y, "Points[1].Y"); #endif Assert.AreEqual (3, path.PathTypes[1], "Types[1]"); // Mono has wrong? results #if false Assert.AreEqual (1.83333325f, path.PathData.Points[2].X, "Points[2].X"); Assert.AreEqual (1.83333325f, path.PathPoints[2].Y, "Points[2].Y"); #endif Assert.AreEqual (3, path.PathData.Types[2], "Types[2]"); Assert.AreEqual (2f, path.PathData.Points[3].X, "Points[3].X"); Assert.AreEqual (2f, path.PathPoints[3].Y, "Points[3].Y"); Assert.AreEqual (3, path.PathTypes[3], "Types[3]"); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void AddCurve_Point_Null () { new GraphicsPath ().AddCurve ((Point[]) null); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddCurve_Point_0 () { GraphicsPath gp = new GraphicsPath (); gp.AddCurve (new Point[0]); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddCurve_Point_1 () { GraphicsPath gp = new GraphicsPath (); gp.AddCurve (new Point[1] { new Point (1, 1) }); } [Test] public void AddCurve_Point_2 () { GraphicsPath gp = new GraphicsPath (); gp.AddCurve (new Point[2] { new Point (1, 1), new Point (2, 2) }); CheckCurve (gp); // note: GdipAddPathCurveI allows adding a "curve" with only 2 points (a.k.a. a line ;-) gp.Dispose (); } [Test] public void AddCurve_Point_2_Tension () { GraphicsPath gp = new GraphicsPath (); gp.AddCurve (new Point[2] { new Point (1, 1), new Point (2, 2) }, 1.0f); CheckCurve (gp); // note: GdipAddPathCurve2I allows adding a "curve" with only 2 points (a.k.a. a line ;-) gp.Dispose (); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddCurve3_Point_2 () { GraphicsPath gp = new GraphicsPath (); gp.AddCurve (new Point[2] { new Point (1, 1), new Point (2, 2) }, 0, 2, 0.5f); // adding only two points isn't supported by GdipAddCurve3I } [Test] [ExpectedException (typeof (ArgumentNullException))] public void AddCurve_PointF_Null () { new GraphicsPath ().AddCurve ((PointF[]) null); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddCurve_PointF_0 () { GraphicsPath gp = new GraphicsPath (); gp.AddCurve (new PointF[0]); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddCurve_PointF_1 () { GraphicsPath gp = new GraphicsPath (); gp.AddCurve (new PointF[1] { new PointF (1f, 1f) }); } [Test] public void AddCurve_PointF_2 () { GraphicsPath gp = new GraphicsPath (); gp.AddCurve (new PointF[2] { new PointF (1f, 1f), new PointF (2f, 2f) }); CheckCurve (gp); // note: GdipAddPathCurve allows adding a "curve" with only 2 points (a.k.a. a line ;-) gp.Dispose (); } [Test] public void AddCurve_PoinFt_2_Tension () { GraphicsPath gp = new GraphicsPath (); gp.AddCurve (new PointF[2] { new PointF (1f, 1f), new PointF (2f, 2f) }, 1.0f); CheckCurve (gp); // note: GdipAddPathCurve2 allows adding a "curve" with only 2 points (a.k.a. a line ;-) gp.Dispose (); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddCurve3_PointF_2 () { GraphicsPath gp = new GraphicsPath (); gp.AddCurve (new PointF[2] { new PointF (1f, 1f), new PointF (2f, 2f) }, 0, 2, 0.5f); // adding only two points isn't supported by GdipAddCurve3 } [Test] public void AddCurve_LargeTension () { GraphicsPath gp = new GraphicsPath (); gp.AddCurve (new PointF[3] { new PointF (1f, 1f), new PointF (0f, 20f), new PointF (20f, 0f) }, 0, 2, Single.MaxValue); Assert.AreEqual (7, gp.PointCount, "PointCount"); gp.Dispose (); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddCurve_ZeroSegments () { GraphicsPath gp = new GraphicsPath (); gp.AddCurve (new PointF[2] { new PointF (1f, 1f), new PointF (2f, 2f) }, 0, 0, 0.5f); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddCurve_NegativeSegments () { GraphicsPath gp = new GraphicsPath (); gp.AddCurve (new PointF[2] { new PointF (1f, 1f), new PointF (2f, 2f) }, 0, -1, 0.5f); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddCurve_OffsetTooLarge () { GraphicsPath gp = new GraphicsPath (); gp.AddCurve (new PointF[3] { new PointF (1f, 1f), new PointF (0f, 20f), new PointF (20f, 0f) }, 1, 2, 0.5f); } [Test] public void AddCurve_Offset () { GraphicsPath gp = new GraphicsPath (); gp.AddCurve (new PointF[4] { new PointF (1f, 1f), new PointF (0f, 20f), new PointF (20f, 0f), new PointF (0f, 10f) }, 1, 2, 0.5f); Assert.AreEqual (7, gp.PointCount, "PointCount"); gp.Dispose (); } [Test] [ExpectedException (typeof (NullReferenceException))] public void AddString_NullString () { GraphicsPath gp = new GraphicsPath (); gp.AddString (null, FontFamily.GenericMonospace, 0, 10, new Point (10, 10), StringFormat.GenericDefault); } [Test] public void AddString_EmptyString () { GraphicsPath gp = new GraphicsPath (); gp.AddString (String.Empty, FontFamily.GenericMonospace, 0, 10, new Point (10, 10), StringFormat.GenericDefault); Assert.AreEqual (0, gp.PointCount, "PointCount"); } [Test] [ExpectedException (typeof (ArgumentException))] public void AddString_NullFontFamily () { GraphicsPath gp = new GraphicsPath (); gp.AddString ("mono", null, 0, 10, new Point (10, 10), StringFormat.GenericDefault); } [Test] public void AddString_NegativeSize () { GraphicsPath gp = new GraphicsPath (); gp.AddString ("mono", FontFamily.GenericMonospace, 0, -10, new Point (10, 10), StringFormat.GenericDefault); Assert.IsTrue (gp.PointCount > 0, "PointCount"); } [Test] [Category ("NotWorking")] // StringFormat not yet supported in libgdiplus public void AddString_StringFormat () { // null maps to ? GraphicsPath gp1 = new GraphicsPath (); gp1.AddString ("mono", FontFamily.GenericMonospace, 0, 10, new RectangleF (10, 10, 10, 10), null); // StringFormat.GenericDefault GraphicsPath gp2 = new GraphicsPath (); gp2.AddString ("mono", FontFamily.GenericMonospace, 0, 10, new RectangleF (10, 10, 10, 10), StringFormat.GenericDefault); Assert.AreEqual (gp1.PointCount, gp2.PointCount, "GenericDefault"); // StringFormat.GenericTypographic GraphicsPath gp3 = new GraphicsPath (); gp3.AddString ("mono", FontFamily.GenericMonospace, 0, 10, new RectangleF (10, 10, 10, 10), StringFormat.GenericTypographic); Assert.IsFalse (gp1.PointCount == gp3.PointCount, "GenericTypographic"); } [Test] public void GetBounds_Empty_Empty () { GraphicsPath gp = new GraphicsPath (); RectangleF rect = gp.GetBounds (); Assert.AreEqual (0.0f, rect.X, "Bounds.X"); Assert.AreEqual (0.0f, rect.Y, "Bounds.Y"); Assert.AreEqual (0.0f, rect.Width, "Bounds.Width"); Assert.AreEqual (0.0f, rect.Height, "Bounds.Height"); } private void CheckRectangleBounds (RectangleF rect) { Assert.AreEqual (1.0f, rect.X, "Bounds.X"); Assert.AreEqual (1.0f, rect.Y, "Bounds.Y"); Assert.AreEqual (2.0f, rect.Width, "Bounds.Width"); Assert.AreEqual (2.0f, rect.Height, "Bounds.Height"); } [Test] public void GetBounds_Empty_Rectangle () { GraphicsPath gp = new GraphicsPath (); gp.AddRectangle (new Rectangle (1, 1, 2, 2)); CheckRectangleBounds (gp.GetBounds ()); } [Test] public void GetBounds_Null_Rectangle () { GraphicsPath gp = new GraphicsPath (); gp.AddRectangle (new Rectangle (1, 1, 2, 2)); CheckRectangleBounds (gp.GetBounds (null)); } [Test] public void GetBounds_MatrixEmpty_Rectangle () { GraphicsPath gp = new GraphicsPath (); gp.AddRectangle (new Rectangle (1, 1, 2, 2)); CheckRectangleBounds (gp.GetBounds (new Matrix ())); } [Test] public void GetBounds_NullNull_Rectangle () { GraphicsPath gp = new GraphicsPath (); gp.AddRectangle (new Rectangle (1, 1, 2, 2)); CheckRectangleBounds (gp.GetBounds (null, null)); } [Test] [Category ("NotWorking")] // can't/wont duplicate the lack of precision public void GetBounds_WithPen () { Rectangle rect = new Rectangle (1, 1, 2, 2); Pen p = new Pen (Color.Aqua, 0); GraphicsPath gp = new GraphicsPath (); gp.AddRectangle (rect); RectangleF bounds = gp.GetBounds (null, p); // those bounds doesn't make any sense (even visually) // probably null gets mis-interpreted ??? Assert.AreEqual (-6.09999943f, bounds.X, "NullMatrix.Bounds.X"); Assert.AreEqual (-6.09999943f, bounds.Y, "NullMatrix.Bounds.Y"); Assert.AreEqual (16.1999989f, bounds.Width, "NullMatrix.Bounds.Width"); Assert.AreEqual (16.1999989f, bounds.Height, "NullMatrix.Bounds.Height"); Matrix m = new Matrix (); bounds = gp.GetBounds (m, p); Assert.AreEqual (-0.419999957f, bounds.X, "EmptyMatrix.Bounds.X"); Assert.AreEqual (-0.419999957f, bounds.Y, "EmptyMatrix.Bounds.Y"); Assert.AreEqual (4.83999968f, bounds.Width, "EmptyMatrix.Bounds.Width"); Assert.AreEqual (4.83999968f, bounds.Height, "EmptyMatrix.Bounds.Height"); // visually we can see the bounds just a pixel bigger than the rectangle gp = new GraphicsPath (); gp.AddRectangle (rect); gp.Widen (p); bounds = gp.GetBounds (null); Assert.AreEqual (0.499999523f, bounds.X, "WidenNullMatrix.Bounds.X"); Assert.AreEqual (0.499999523f, bounds.Y, "WidenNullMatrix.Bounds.Y"); Assert.AreEqual (3.000001f, bounds.Width, "WidenNullMatrix.Bounds.Width"); Assert.AreEqual (3.000001f, bounds.Height, "WidenNullMatrix.Bounds.Height"); bounds = gp.GetBounds (m); Assert.AreEqual (0.499999523f, bounds.X, "WidenEmptyMatrix.Bounds.X"); Assert.AreEqual (0.499999523f, bounds.Y, "WidenEmptyMatrix.Bounds.Y"); Assert.AreEqual (3.000001f, bounds.Width, "WidenEmptyMatrix.Bounds.Width"); Assert.AreEqual (3.000001f, bounds.Height, "WidenEmptyMatrix.Bounds.Height"); } private void CheckPieBounds (RectangleF rect) { Assert.AreEqual (60.0f, rect.X, 1, "Bounds.X"); Assert.AreEqual (60.0f, rect.Y, 1, "Bounds.Y"); Assert.AreEqual (43.3f, rect.Width, 1, "Bounds.Width"); Assert.AreEqual (48.3f, rect.Height, 1, "Bounds.Height"); } [Test] public void GetBounds_Empty_Pie () { GraphicsPath gp = new GraphicsPath (); gp.AddPie (10, 10, 100, 100, 30, 45); CheckPieBounds (gp.GetBounds ()); gp.Dispose (); } [Test] public void GetBounds_Null_Pie () { GraphicsPath gp = new GraphicsPath (); gp.AddPie (10, 10, 100, 100, 30, 45); CheckPieBounds (gp.GetBounds (null)); gp.Dispose (); } [Test] public void GetBounds_MatrixEmpty_Pie () { GraphicsPath gp = new GraphicsPath (); gp.AddPie (10, 10, 100, 100, 30, 45); CheckPieBounds (gp.GetBounds (new Matrix ())); gp.Dispose (); } [Test] public void GetBounds_NullNull_Pie () { GraphicsPath gp = new GraphicsPath (); gp.AddPie (10, 10, 100, 100, 30, 45); CheckPieBounds (gp.GetBounds (null, null)); gp.Dispose (); } [Test] public void GetBounds_Empty_ClosedCurve () { GraphicsPath gp = new GraphicsPath (); gp.AddClosedCurve (new Point[4] { new Point (20, 100), new Point (70, 10), new Point (130, 200), new Point (180, 100) }); #if false // so far from reality that it's totally useless Assert.AreEqual (1.666666f, rect.X, 0.00001, "Bounds.X"); Assert.AreEqual (-6.66666f, rect.Y, 1, "Bounds.Y"); Assert.AreEqual (196.6666f, rect.Width, 1, "Bounds.Width"); Assert.AreEqual (221.6666f, rect.Height, 1, "Bounds.Height"); #endif gp.Dispose (); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void Transform_Null () { new GraphicsPath ().Transform (null); } [Test] public void Transform_Empty () { // no points in path and no exception new GraphicsPath ().Transform (new Matrix ()); } private void ComparePaths (GraphicsPath expected, GraphicsPath actual) { Assert.AreEqual (expected.PointCount, actual.PointCount, "PointCount"); for (int i = 0; i < expected.PointCount; i++) { Assert.AreEqual (expected.PathPoints[i], actual.PathPoints[i], "PathPoints-" + i.ToString ()); Assert.AreEqual (expected.PathTypes[i], actual.PathTypes[i], "PathTypes-" + i.ToString ()); } } private void CompareFlats (GraphicsPath flat, GraphicsPath original) { Assert.IsTrue (flat.PointCount >= original.PointCount, "PointCount"); for (int i = 0; i < flat.PointCount; i++) { Assert.IsTrue (flat.PathTypes[i] != 3, "PathTypes-" + i.ToString ()); } } [Test] public void Flatten_Empty () { GraphicsPath path = new GraphicsPath (); GraphicsPath clone = (GraphicsPath) path.Clone (); // this is a no-op as there's nothing in the path path.Flatten (); ComparePaths (path, clone); } [Test] public void Flatten_Null () { GraphicsPath path = new GraphicsPath (); GraphicsPath clone = (GraphicsPath) path.Clone (); // this is a no-op as there's nothing in the path // an no matrix to apply path.Flatten (null); ComparePaths (path, clone); } [Test] public void Flatten_NullFloat () { GraphicsPath path = new GraphicsPath (); GraphicsPath clone = (GraphicsPath) path.Clone (); // this is a no-op as there's nothing in the path // an no matrix to apply path.Flatten (null, 1f); ComparePaths (path, clone); } [Test] public void Flatten_Arc () { GraphicsPath path = new GraphicsPath (); path.AddArc (0f, 0f, 100f, 100f, 30, 30); GraphicsPath clone = (GraphicsPath) path.Clone (); path.Flatten (); CompareFlats (path, clone); } [Test] public void Flatten_Bezier () { GraphicsPath path = new GraphicsPath (); path.AddBezier (0, 0, 100, 100, 30, 30, 60, 60); GraphicsPath clone = (GraphicsPath) path.Clone (); path.Flatten (); CompareFlats (path, clone); } [Test] public void Flatten_ClosedCurve () { GraphicsPath path = new GraphicsPath (); path.AddClosedCurve (new Point[4] { new Point (0, 0), new Point (40, 20), new Point (20, 40), new Point (40, 40) }); GraphicsPath clone = (GraphicsPath) path.Clone (); path.Flatten (); CompareFlats (path, clone); } [Test] public void Flatten_Curve () { GraphicsPath path = new GraphicsPath (); path.AddCurve (new Point[4] { new Point (0, 0), new Point (40, 20), new Point (20, 40), new Point (40, 40) }); GraphicsPath clone = (GraphicsPath) path.Clone (); path.Flatten (); CompareFlats (path, clone); } [Test] public void Flatten_Ellipse () { GraphicsPath path = new GraphicsPath (); path.AddEllipse (10f, 10f, 100f, 100f); GraphicsPath clone = (GraphicsPath) path.Clone (); path.Flatten (); CompareFlats (path, clone); } [Test] public void Flatten_Line () { GraphicsPath path = new GraphicsPath (); path.AddLine (10f, 10f, 100f, 100f); GraphicsPath clone = (GraphicsPath) path.Clone (); path.Flatten (); ComparePaths (path, clone); } [Test] public void Flatten_Pie () { GraphicsPath path = new GraphicsPath (); path.AddPie (0, 0, 100, 100, 30, 30); GraphicsPath clone = (GraphicsPath) path.Clone (); path.Flatten (); CompareFlats (path, clone); } [Test] public void Flatten_Polygon () { GraphicsPath path = new GraphicsPath (); path.AddPolygon (new Point[4] { new Point (0, 0), new Point (10, 10), new Point (20, 20), new Point (40, 40) }); GraphicsPath clone = (GraphicsPath) path.Clone (); path.Flatten (); ComparePaths (path, clone); } [Test] public void Flatten_Rectangle () { GraphicsPath path = new GraphicsPath (); path.AddRectangle (new Rectangle (0, 0, 100, 100)); GraphicsPath clone = (GraphicsPath) path.Clone (); path.Flatten (); ComparePaths (path, clone); } private void CheckWrap (GraphicsPath path) { Assert.AreEqual (3, path.PointCount, "Count"); PointF[] pts = path.PathPoints; Assert.AreEqual (0, pts[0].X, 1e-30, "0.X"); Assert.AreEqual (0, pts[0].Y, 1e-30, "0.Y"); Assert.AreEqual (0, pts[1].X, 1e-30, "1.X"); Assert.AreEqual (0, pts[1].Y, 1e-30, "1.Y"); Assert.AreEqual (0, pts[2].X, 1e-30, "2.X"); Assert.AreEqual (0, pts[2].Y, 1e-30, "2.Y"); byte[] types = path.PathTypes; Assert.AreEqual (0, types[0], "0"); Assert.AreEqual (1, types[1], "1"); Assert.AreEqual (129, types[2], "2"); } private void CheckWrapNaN (GraphicsPath path, bool closed) { Assert.AreEqual (3, path.PointCount, "Count"); PointF[] pts = path.PathPoints; Assert.AreEqual (Single.NaN, pts[0].X, "0.X"); Assert.AreEqual (Single.NaN, pts[0].Y, "0.Y"); Assert.AreEqual (Single.NaN, pts[1].X, "1.X"); Assert.AreEqual (Single.NaN, pts[1].Y, "1.Y"); Assert.AreEqual (Single.NaN, pts[2].X, "2.X"); Assert.AreEqual (Single.NaN, pts[2].Y, "2.Y"); byte[] types = path.PathTypes; Assert.AreEqual (0, types[0], "0"); Assert.AreEqual (1, types[1], "1"); Assert.AreEqual (closed ? 129 : 1, types[2], "2"); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void Warp_Null () { new GraphicsPath ().Warp (null, new RectangleF ()); } [Test] [ExpectedException (typeof (ArgumentException))] public void Warp_NoPoints () { new GraphicsPath ().Warp (new PointF[0], new RectangleF ()); } [Test] public void Wrap_NoPoint () { using (GraphicsPath gp = new GraphicsPath ()) { Assert.AreEqual (0, gp.PointCount, "PointCount-1"); PointF[] pts = new PointF[1] { new PointF (0, 0) }; RectangleF r = new RectangleF (10, 20, 30, 40); gp.Warp (pts, r, new Matrix ()); Assert.AreEqual (0, gp.PointCount, "PointCount-2"); } } [Test] [Category ("NotWorking")] public void Wrap_SinglePoint () { using (GraphicsPath gp = new GraphicsPath ()) { gp.AddLines (new Point[1] { new Point (1, 1) }); // Special case - a line with a single point is valid Assert.AreEqual (1, gp.PointCount, "PointCount-1"); PointF[] pts = new PointF[1] { new PointF (0, 0) }; RectangleF r = new RectangleF (10, 20, 30, 40); gp.Warp (pts, r, new Matrix ()); Assert.AreEqual (0, gp.PointCount, "PointCount-2"); } } [Test] [Category ("NotWorking")] public void Wrap_Line () { using (GraphicsPath gp = new GraphicsPath ()) { gp.AddLine (new Point (1, 1), new Point (20, 20)); Assert.AreEqual (2, gp.PointCount, "PointCount-1"); PointF[] pts = new PointF[1] { new PointF (0, 0) }; RectangleF r = new RectangleF (10, 20, 30, 40); gp.Warp (pts, r, new Matrix ()); Assert.AreEqual (2, gp.PointCount, "PointCount-2"); } } [Test] [Ignore ("results aren't always constant and differs from 1.x and 2.0")] public void Warp_NullMatrix () { PointF[] pts = new PointF[1] { new PointF (0,0) }; GraphicsPath path = new GraphicsPath (); path.AddPolygon (new Point[3] { new Point (5, 5), new Point (15, 5), new Point (10, 15) }); RectangleF r = new RectangleF (10, 20, 30, 40); path.Warp (pts, r, null); CheckWrap (path); } [Test] [Ignore ("results aren't always constant and differs from 1.x and 2.0")] public void Warp_EmptyMatrix () { PointF[] pts = new PointF[1] { new PointF (0, 0) }; GraphicsPath path = new GraphicsPath (); path.AddPolygon (new Point[3] { new Point (5, 5), new Point (15, 5), new Point (10, 15) }); RectangleF r = new RectangleF (10, 20, 30, 40); path.Warp (pts, r, new Matrix ()); CheckWrap (path); } [Test] [Category ("NotWorking")] public void Warp_Rectangle_Empty () { PointF[] pts = new PointF[1] { new PointF (0, 0) }; GraphicsPath path = new GraphicsPath (); path.AddPolygon (new Point[3] { new Point (5, 5), new Point (15, 5), new Point (10, 15) }); path.Warp (pts, new RectangleF (), null); CheckWrapNaN (path, true); } [Test] [Category ("NotWorking")] public void Warp_Rectangle_NegativeWidthHeight () { PointF[] pts = new PointF[1] { new PointF (0, 0) }; GraphicsPath path = new GraphicsPath (); path.AddPolygon (new Point[3] { new Point (5, 5), new Point (15, 5), new Point (10, 15) }); RectangleF r = new RectangleF (10, 20, -30, -40); path.Warp (pts, r, null); Assert.AreEqual (3, path.PointCount, "Count"); pts = path.PathPoints; Assert.AreEqual (1.131355e-39, pts[0].X, 1e40, "0.X"); Assert.AreEqual (-2.0240637E-33, pts[0].Y, 1e40, "0.Y"); Assert.AreEqual (1.070131E-39, pts[1].X, 1e40, "1.X"); Assert.AreEqual (-2.02406389E-33, pts[1].Y, 1e40, "1.Y"); Assert.AreEqual (3.669146E-40, pts[2].X, 1e40, "2.X"); Assert.AreEqual (-6.746879E-34, pts[2].Y, 1e40, "2.Y"); byte[] types = path.PathTypes; Assert.AreEqual (0, types[0], "0"); Assert.AreEqual (1, types[1], "1"); Assert.AreEqual (129, types[2], "2"); } [Test] [Ignore ("results aren't always constant and differs from 1.x and 2.0")] public void Warp_Matrix_NonInvertible () { Matrix matrix = new Matrix (123, 24, 82, 16, 47, 30); Assert.IsFalse (matrix.IsInvertible, "!IsInvertible"); PointF[] pts = new PointF[1] { new PointF (0, 0) }; GraphicsPath path = new GraphicsPath (); path.AddPolygon (new Point[3] { new Point (5, 5), new Point (15, 5), new Point (10, 15) }); RectangleF r = new RectangleF (10, 20, 30, 40); path.Warp (pts, r, matrix); Assert.AreEqual (3, path.PointCount, "Count"); pts = path.PathPoints; Assert.AreEqual (47, pts[0].X, "0.X"); Assert.AreEqual (30, pts[0].Y, "0.Y"); Assert.AreEqual (47, pts[1].X, "1.X"); Assert.AreEqual (30, pts[1].Y, "1.Y"); Assert.AreEqual (47, pts[2].X, "2.X"); Assert.AreEqual (30, pts[2].Y, "2.Y"); byte[] types = path.PathTypes; Assert.AreEqual (0, types[0], "0"); Assert.AreEqual (1, types[1], "1"); Assert.AreEqual (129, types[2], "2"); } [Test] [Category ("NotWorking")] public void Warp_Bilinear () { PointF[] pts = new PointF[1] { new PointF (0, 0) }; GraphicsPath path = new GraphicsPath (); path.AddPolygon (new Point[3] { new Point (5, 5), new Point (15, 5), new Point (10, 15) }); RectangleF r = new RectangleF (10, 20, 30, 40); path.Warp (pts, r, new Matrix (), WarpMode.Bilinear); // note that the last point is no more closed CheckWrapNaN (path, false); } [Test] [Ignore ("results aren't always constant and differs from 1.x and 2.0")] public void Warp_Perspective () { PointF[] pts = new PointF[1] { new PointF (0, 0) }; GraphicsPath path = new GraphicsPath (); path.AddPolygon (new Point[3] { new Point (5, 5), new Point (15, 5), new Point (10, 15) }); RectangleF r = new RectangleF (10, 20, 30, 40); path.Warp (pts, r, new Matrix (), WarpMode.Perspective); CheckWrap (path); } [Test] public void Warp_Invalid () { PointF[] pts = new PointF[1] { new PointF (0, 0) }; GraphicsPath path = new GraphicsPath (); path.AddPolygon (new Point[3] { new Point (5, 5), new Point (15, 5), new Point (10, 15) }); RectangleF r = new RectangleF (10, 20, 30, 40); path.Warp (pts, r, new Matrix (), (WarpMode) Int32.MinValue); Assert.AreEqual (0, path.PointCount, "Count"); } [Test] [Ignore ("results aren't always constant and differs from 1.x and 2.0")] public void Warp_Flatness_Negative () { PointF[] pts = new PointF[1] { new PointF (0, 0) }; GraphicsPath path = new GraphicsPath (); path.AddPolygon (new Point[3] { new Point (5, 5), new Point (15, 5), new Point (10, 15) }); RectangleF r = new RectangleF (10, 20, 30, 40); path.Warp (pts, r, new Matrix (), WarpMode.Perspective, -1f); CheckWrap (path); } [Test] [Ignore ("results aren't always constant and differs from 1.x and 2.0")] public void Warp_Flatness_OverOne () { PointF[] pts = new PointF[1] { new PointF (0, 0) }; GraphicsPath path = new GraphicsPath (); path.AddPolygon (new Point[3] { new Point (5, 5), new Point (15, 5), new Point (10, 15) }); RectangleF r = new RectangleF (10, 20, 30, 40); path.Warp (pts, r, new Matrix (), WarpMode.Perspective, 2.0f); CheckWrap (path); } [Test] public void SetMarkers_EmptyPath () { new GraphicsPath ().SetMarkers (); } [Test] public void ClearMarkers_EmptyPath () { new GraphicsPath ().ClearMarkers (); } [Test] public void CloseFigure_EmptyPath () { new GraphicsPath ().CloseFigure (); } [Test] public void CloseAllFigures_EmptyPath () { new GraphicsPath ().CloseAllFigures (); } [Test] public void StartClose_AddArc () { GraphicsPath path = new GraphicsPath (); path.AddLine (1, 1, 2, 2); path.AddArc (10, 10, 100, 100, 90, 180); path.AddLine (10, 10, 20, 20); byte[] types = path.PathTypes; // check first types Assert.AreEqual (0, types[0], "start/Line"); Assert.AreEqual (1, types[2], "start/Arc"); // check last types Assert.AreEqual (3, types[path.PointCount - 3], "end/Arc"); Assert.AreEqual (1, types[path.PointCount - 1], "end/Line"); } [Test] public void StartClose_AddBezier () { GraphicsPath path = new GraphicsPath (); path.AddLine (1, 1, 2, 2); path.AddBezier (10, 10, 100, 100, 20, 20, 200, 200); path.AddLine (10, 10, 20, 20); byte[] types = path.PathTypes; // check first types Assert.AreEqual (0, types[0], "start/Line"); Assert.AreEqual (1, types[2], "start/Bezier"); // check last types Assert.AreEqual (3, types[path.PointCount - 3], "end/Bezier"); Assert.AreEqual (1, types[path.PointCount - 1], "end/Line"); } [Test] public void StartClose_AddBeziers () { GraphicsPath path = new GraphicsPath (); path.AddLine (1, 1, 2, 2); path.AddBeziers (new Point[7] { new Point (10, 10), new Point (20, 10), new Point (20, 20), new Point (30, 20), new Point (40, 40), new Point (50, 40), new Point (50, 50) }); path.AddLine (10, 10, 20, 20); byte[] types = path.PathTypes; // check first types Assert.AreEqual (0, types[0], "start/Line"); Assert.AreEqual (1, types[2], "start/Bezier"); // check last types Assert.AreEqual (3, types[path.PointCount - 3], "end/Bezier"); Assert.AreEqual (1, types[path.PointCount - 1], "end/Line"); } [Test] public void StartClose_AddClosedCurve () { GraphicsPath path = new GraphicsPath (); path.AddLine (1, 1, 2, 2); path.AddClosedCurve (new Point[3] { new Point (1, 1), new Point (2, 2), new Point (3, 3) }); path.AddLine (10, 10, 20, 20); byte[] types = path.PathTypes; // check first types Assert.AreEqual (0, types[0], "start/Line"); Assert.AreEqual (0, types[2], "start/ClosedCurve"); // check last types Assert.AreEqual (131, types[path.PointCount - 3], "end/ClosedCurve"); Assert.AreEqual (0, types[path.PointCount - 2], "start/Line3"); Assert.AreEqual (1, types[path.PointCount - 1], "end/Line3"); } [Test] public void StartClose_AddCurve () { GraphicsPath path = new GraphicsPath (); path.AddLine (1, 1, 2, 2); path.AddCurve (new Point[3] { new Point (1, 1), new Point (2, 2), new Point (3, 3) }); path.AddLine (10, 10, 20, 20); byte[] types = path.PathTypes; // check first types Assert.AreEqual (0, types[0], "start/Line"); Assert.AreEqual (1, types[2], "start/Curve"); // check last types Assert.AreEqual (3, types[path.PointCount - 3], "end/Curve"); Assert.AreEqual (1, types[path.PointCount - 1], "end/Line"); } [Test] public void StartClose_AddEllipse () { GraphicsPath path = new GraphicsPath (); path.AddLine (1, 1, 2, 2); path.AddEllipse (10, 10, 100, 100); path.AddLine (10, 10, 20, 20); byte[] types = path.PathTypes; // check first types Assert.AreEqual (0, types[0], "start/Line"); Assert.AreEqual (0, types[2], "start/Ellipse"); // check last types Assert.AreEqual (131, types[path.PointCount - 3], "end/Ellipse"); Assert.AreEqual (0, types[path.PointCount - 2], "start/Line3"); Assert.AreEqual (1, types[path.PointCount - 1], "end/Line3"); } [Test] public void StartClose_AddLine () { GraphicsPath path = new GraphicsPath (); path.AddLine (1, 1, 2, 2); path.AddLine (5, 5, 10, 10); path.AddLine (10, 10, 20, 20); byte[] types = path.PathTypes; // check first types Assert.AreEqual (0, types[0], "start/Line"); Assert.AreEqual (1, types[2], "start/Line2"); // check last types Assert.AreEqual (1, types[path.PointCount - 3], "end/Line2"); Assert.AreEqual (1, types[path.PointCount - 1], "end/Line"); } [Test] public void StartClose_AddLines () { GraphicsPath path = new GraphicsPath (); path.AddLine (1, 1, 2, 2); path.AddLines (new Point[4] { new Point (10, 10), new Point (20, 10), new Point (20, 20), new Point (30, 20) }); path.AddLine (10, 10, 20, 20); byte[] types = path.PathTypes; // check first types Assert.AreEqual (0, types[0], "start/Line"); Assert.AreEqual (1, types[2], "start/Lines"); // check last types Assert.AreEqual (1, types[path.PointCount - 3], "end/Lines"); Assert.AreEqual (1, types[path.PointCount - 1], "end/Line"); } [Test] public void StartClose_AddPath_Connect () { GraphicsPath inner = new GraphicsPath (); inner.AddArc (10, 10, 100, 100, 90, 180); GraphicsPath path = new GraphicsPath (); path.AddLine (1, 1, 2, 2); path.AddPath (inner, true); path.AddLine (10, 10, 20, 20); byte[] types = path.PathTypes; // check first types Assert.AreEqual (0, types[0], "start/Line"); Assert.AreEqual (1, types[2], "start/Path"); // check last types Assert.AreEqual (3, types[path.PointCount - 3], "end/Path"); Assert.AreEqual (1, types[path.PointCount - 1], "end/Line"); } [Test] public void StartClose_AddPath_NoConnect () { GraphicsPath inner = new GraphicsPath (); inner.AddArc (10, 10, 100, 100, 90, 180); GraphicsPath path = new GraphicsPath (); path.AddLine (1, 1, 2, 2); path.AddPath (inner, false); path.AddLine (10, 10, 20, 20); byte[] types = path.PathTypes; // check first types Assert.AreEqual (0, types[0], "start/Line"); Assert.AreEqual (0, types[2], "start/Path"); // check last types Assert.AreEqual (3, types[path.PointCount - 3], "end/Path"); Assert.AreEqual (1, types[path.PointCount - 1], "end/Line"); } [Test] public void StartClose_AddPie () { GraphicsPath path = new GraphicsPath (); path.AddLine (1, 1, 2, 2); path.AddPie (10, 10, 10, 10, 90, 180); path.AddLine (10, 10, 20, 20); byte[] types = path.PathTypes; // check first types Assert.AreEqual (0, types[0], "start/Line"); Assert.AreEqual (0, types[2], "start/Pie"); // check last types // libgdiplus draws pie by ending with a line (not a curve) section Assert.IsTrue ((types[path.PointCount - 3] & 128) == 128, "end/Pie"); Assert.AreEqual (0, types[path.PointCount - 2], "start/Line2"); Assert.AreEqual (1, types[path.PointCount - 1], "end/Line2"); } [Test] public void StartClose_AddPolygon () { GraphicsPath path = new GraphicsPath (); path.AddLine (1, 1, 2, 2); path.AddPolygon (new Point[3] { new Point (1, 1), new Point (2, 2), new Point (3, 3) }); path.AddLine (10, 10, 20, 20); byte[] types = path.PathTypes; // check first types Assert.AreEqual (0, types[0], "start/Line"); Assert.AreEqual (0, types[2], "start/Polygon"); // check last types Assert.AreEqual (129, types[path.PointCount - 3], "end/Polygon"); Assert.AreEqual (0, types[path.PointCount - 2], "start/Line2"); Assert.AreEqual (1, types[path.PointCount - 1], "end/Line2"); } [Test] public void StartClose_AddRectangle () { GraphicsPath path = new GraphicsPath (); path.AddLine (1, 1, 2, 2); path.AddRectangle (new RectangleF (10, 10, 20, 20)); path.AddLine (10, 10, 20, 20); byte[] types = path.PathTypes; // check first types Assert.AreEqual (0, types[0], "start/Line"); Assert.AreEqual (0, types[2], "start/Rectangle"); // check last types Assert.AreEqual (129, types[path.PointCount - 3], "end/Rectangle"); Assert.AreEqual (0, types[path.PointCount - 2], "start/Line2"); Assert.AreEqual (1, types[path.PointCount - 1], "end/Line2"); } [Test] public void StartClose_AddRectangles () { GraphicsPath path = new GraphicsPath (); path.AddLine (1, 1, 2, 2); path.AddRectangles (new RectangleF[2] { new RectangleF (10, 10, 20, 20), new RectangleF (20, 20, 10, 10) }); path.AddLine (10, 10, 20, 20); byte[] types = path.PathTypes; // check first types Assert.AreEqual (0, types[0], "start/Line"); Assert.AreEqual (0, types[2], "start/Rectangles"); // check last types Assert.AreEqual (129, types[path.PointCount - 3], "end/Rectangles"); Assert.AreEqual (0, types[path.PointCount - 2], "start/Line2"); Assert.AreEqual (1, types[path.PointCount - 1], "end/Line2"); } [Test] [Category ("NotWorking")] public void StartClose_AddString () { GraphicsPath path = new GraphicsPath (); path.AddLine (1, 1, 2, 2); path.AddString ("mono", FontFamily.GenericMonospace, 0, 10, new Point (20,20), StringFormat.GenericDefault); path.AddLine (10, 10, 20, 20); byte[] types = path.PathTypes; // check first types Assert.AreEqual (0, types[0], "start/Line"); Assert.AreEqual (0, types[2], "start/String"); // check last types Assert.AreEqual (163, types[path.PointCount - 3], "end/String"); Assert.AreEqual (1, types[path.PointCount - 2], "start/Line2"); Assert.AreEqual (1, types[path.PointCount - 1], "end/Line2"); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void Widen_Pen_Null () { new GraphicsPath ().Widen (null); } [Test] [Category ("NotWorking")] public void Widen_Pen () { Pen pen = new Pen (Color.Blue); GraphicsPath path = new GraphicsPath (); path.AddRectangle (new Rectangle (1, 1, 2, 2)); Assert.AreEqual (4, path.PointCount, "Count-1"); path.Widen (pen); Assert.AreEqual (12, path.PointCount, "Count-2"); PointF[] pts = path.PathPoints; Assert.AreEqual (0.5, pts[0].X, 0.25, "0.X"); Assert.AreEqual (0.5, pts[0].Y, 0.25, "0.Y"); Assert.AreEqual (3.5, pts[1].X, 0.25, "1.X"); Assert.AreEqual (0.5, pts[1].Y, 0.25, "1.Y"); Assert.AreEqual (3.5, pts[2].X, 0.25, "2.X"); Assert.AreEqual (3.5, pts[2].Y, 0.25, "2.Y"); Assert.AreEqual (0.5, pts[3].X, 0.25, "3.X"); Assert.AreEqual (3.5, pts[3].Y, 0.25, "3.Y"); Assert.AreEqual (1.5, pts[4].X, 0.25, "4.X"); Assert.AreEqual (3.0, pts[4].Y, 0.25, "4.Y"); Assert.AreEqual (1.0, pts[5].X, 0.25, "5.X"); Assert.AreEqual (2.5, pts[5].Y, 0.25, "5.Y"); Assert.AreEqual (3.0, pts[6].X, 0.25, "6.X"); Assert.AreEqual (2.5, pts[6].Y, 0.25, "6.Y"); Assert.AreEqual (2.5, pts[7].X, 0.25, "7.X"); Assert.AreEqual (3.0, pts[7].Y, 0.25, "7.Y"); Assert.AreEqual (2.5, pts[8].X, 0.25, "8.X"); Assert.AreEqual (1.0, pts[8].Y, 0.25, "8.Y"); Assert.AreEqual (3.0, pts[9].X, 0.25, "9.X"); Assert.AreEqual (1.5, pts[9].Y, 0.25, "9.Y"); Assert.AreEqual (1.0, pts[10].X, 0.25, "10.X"); Assert.AreEqual (1.5, pts[10].Y, 0.25, "10.Y"); Assert.AreEqual (1.5, pts[11].X, 0.25, "11.X"); Assert.AreEqual (1.0, pts[11].Y, 0.25, "11.Y"); byte[] types = path.PathTypes; Assert.AreEqual (0, types[0], "0"); Assert.AreEqual (1, types[1], "1"); Assert.AreEqual (1, types[2], "2"); Assert.AreEqual (129, types[3], "3"); Assert.AreEqual (0, types[4], "4"); Assert.AreEqual (1, types[5], "5"); Assert.AreEqual (1, types[6], "6"); Assert.AreEqual (1, types[7], "7"); Assert.AreEqual (1, types[8], "8"); Assert.AreEqual (1, types[9], "9"); Assert.AreEqual (1, types[10], "10"); Assert.AreEqual (129, types[11], "11"); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void Widen_Pen_Null_Matrix () { new GraphicsPath ().Widen (null, new Matrix ()); } [Test] #if ONLY_1_1 [ExpectedException (typeof (OutOfMemoryException))] #endif public void Widen_NoPoint () { using (GraphicsPath gp = new GraphicsPath ()) { Assert.AreEqual (0, gp.PointCount, "PointCount-1"); Pen pen = new Pen (Color.Blue); gp.Widen (pen); Assert.AreEqual (0, gp.PointCount, "PointCount-2"); } } [Test] [ExpectedException (typeof (OutOfMemoryException))] public void Widen_SinglePoint () { using (GraphicsPath gp = new GraphicsPath ()) { gp.AddLines (new Point[1] { new Point (1, 1) }); // Special case - a line with a single point is valid Assert.AreEqual (1, gp.PointCount, "PointCount"); gp.Widen (Pens.Red); // oops ;-) } } private void CheckWiden3 (GraphicsPath path) { PointF[] pts = path.PathPoints; Assert.AreEqual (4.2, pts[0].X, 0.25, "0.X"); Assert.AreEqual (4.5, pts[0].Y, 0.25, "0.Y"); Assert.AreEqual (15.8, pts[1].X, 0.25, "1.X"); Assert.AreEqual (4.5, pts[1].Y, 0.25, "1.Y"); Assert.AreEqual (10.0, pts[2].X, 0.25, "2.X"); Assert.AreEqual (16.1, pts[2].Y, 0.25, "2.Y"); Assert.AreEqual (10.4, pts[3].X, 0.25, "3.X"); Assert.AreEqual (14.8, pts[3].Y, 0.25, "3.Y"); Assert.AreEqual (9.6, pts[4].X, 0.25, "4.X"); Assert.AreEqual (14.8, pts[4].Y, 0.25, "4.Y"); Assert.AreEqual (14.6, pts[5].X, 0.25, "7.X"); Assert.AreEqual (4.8, pts[5].Y, 0.25, "7.Y"); Assert.AreEqual (15.0, pts[6].X, 0.25, "5.X"); Assert.AreEqual (5.5, pts[6].Y, 0.25, "5.Y"); Assert.AreEqual (5.0, pts[7].X, 0.25, "6.X"); Assert.AreEqual (5.5, pts[7].Y, 0.25, "6.Y"); Assert.AreEqual (5.4, pts[8].X, 0.25, "8.X"); Assert.AreEqual (4.8, pts[8].Y, 0.25, "8.Y"); byte[] types = path.PathTypes; Assert.AreEqual (0, types[0], "0"); Assert.AreEqual (1, types[1], "1"); Assert.AreEqual (129, types[2], "2"); Assert.AreEqual (0, types[3], "3"); Assert.AreEqual (1, types[4], "4"); Assert.AreEqual (1, types[5], "5"); Assert.AreEqual (1, types[6], "6"); Assert.AreEqual (1, types[7], "7"); Assert.AreEqual (129, types[8], "8"); } [Test] [Category ("NotWorking")] public void Widen_Pen_Matrix_Null () { Pen pen = new Pen (Color.Blue); GraphicsPath path = new GraphicsPath (); path.AddPolygon (new Point[3] { new Point (5, 5), new Point (15, 5), new Point (10, 15) }); path.Widen (pen, null); Assert.AreEqual (9, path.PointCount, "Count"); CheckWiden3 (path); } [Test] [Category ("NotWorking")] public void Widen_Pen_Matrix_Empty () { Pen pen = new Pen (Color.Blue); GraphicsPath path = new GraphicsPath (); path.AddPolygon (new Point[3] { new Point (5, 5), new Point (15, 5), new Point (10, 15) }); path.Widen (pen, new Matrix ()); Assert.AreEqual (9, path.PointCount, "Count"); CheckWiden3 (path); } [Test] [Ignore ("results aren't always constant and differs from 1.x and 2.0")] public void Widen_Pen_Matrix_NonInvertible () { Matrix matrix = new Matrix (123, 24, 82, 16, 47, 30); Assert.IsFalse (matrix.IsInvertible, "!IsInvertible"); GraphicsPath path = new GraphicsPath (); path.Widen (new Pen (Color.Blue), matrix); Assert.AreEqual (0, path.PointCount, "Points"); } private void CheckWidenedBounds (string message, GraphicsPath gp, Matrix m) { RectangleF bounds = gp.GetBounds (m); Assert.AreEqual (0.5f, bounds.X, 0.00001f, message + ".Bounds.X"); Assert.AreEqual (0.5f, bounds.Y, 0.00001f, message + ".Bounds.Y"); Assert.AreEqual (3.0f, bounds.Width, 0.00001f, message + ".Bounds.Width"); Assert.AreEqual (3.0f, bounds.Height, 0.00001f, message + ".Bounds.Height"); } [Test] [Category ("NotWorking")] public void Widen_Pen_SmallWidth () { Matrix m = new Matrix (); Rectangle rect = new Rectangle (1, 1, 2, 2); // pen's smaller than 1.0 (width) are "promoted" to 1 Pen p = new Pen (Color.Aqua, 0); GraphicsPath gp = new GraphicsPath (); gp.AddRectangle (rect); gp.Widen (p); CheckWidenedBounds ("Width == 0, Null matrix", gp, null); CheckWidenedBounds ("Width == 0, Empty matrix", gp, m); p.Width = 0.5f; gp = new GraphicsPath (); gp.AddRectangle (rect); gp.Widen (p); CheckWidenedBounds ("Width == 0.5, Null matrix", gp, null); CheckWidenedBounds ("Width == 0.5, Empty matrix", gp, m); p.Width = 1.0f; gp = new GraphicsPath (); gp.AddRectangle (rect); gp.Widen (p); CheckWidenedBounds ("Width == 1.0, Null matrix", gp, null); CheckWidenedBounds ("Width == 1.0, Empty matrix", gp, m); p.Width = 1.1f; gp = new GraphicsPath (); gp.AddRectangle (rect); gp.Widen (p); RectangleF bounds = gp.GetBounds (m); Assert.AreEqual (0.45f, bounds.X, 0.00001f, "1.1.Bounds.X"); Assert.AreEqual (0.45f, bounds.Y, 0.00001f, "1.1.Bounds.Y"); Assert.AreEqual (3.10f, bounds.Width, 0.00001f, "1.1.Bounds.Width"); Assert.AreEqual (3.10f, bounds.Height, 0.00001f, "1.1.Bounds.Height"); } } }