// // Tests for System.Drawing.Drawing2D.Matrix.cs // // Authors: // Jordi Mas i Hernandez // Sebastien Pouliot // // Copyright (C) 2005-2006 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 NUnit.Framework; using System; using System.Drawing; using System.Drawing.Drawing2D; using System.Security.Permissions; namespace MonoTests.System.Drawing.Drawing2D { [TestFixture] [SecurityPermission (SecurityAction.Deny, UnmanagedCode = true)] public class MatrixTest { private Matrix default_matrix; private Rectangle rect; private RectangleF rectf; [TestFixtureSetUp] public void FixtureSetUp () { default_matrix = new Matrix (); } [Test] public void Constructor_Default () { Matrix matrix = new Matrix (); Assert.AreEqual (6, matrix.Elements.Length, "C#1"); } [Test] public void Constructor_SixFloats () { Matrix matrix = new Matrix (10, 20, 30, 40, 50, 60); Assert.AreEqual (6, matrix.Elements.Length, "C#2"); Assert.AreEqual (10, matrix.Elements[0], "C#3"); Assert.AreEqual (20, matrix.Elements[1], "C#4"); Assert.AreEqual (30, matrix.Elements[2], "C#5"); Assert.AreEqual (40, matrix.Elements[3], "C#6"); Assert.AreEqual (50, matrix.Elements[4], "C#7"); Assert.AreEqual (60, matrix.Elements[5], "C#8"); } [Test] public void Constructor_Float () { Matrix matrix = new Matrix (10, 20, 30, 40, 50, 60); Assert.AreEqual (6, matrix.Elements.Length, "C#2"); Assert.AreEqual (10, matrix.Elements[0], "C#3"); Assert.AreEqual (20, matrix.Elements[1], "C#4"); Assert.AreEqual (30, matrix.Elements[2], "C#5"); Assert.AreEqual (40, matrix.Elements[3], "C#6"); Assert.AreEqual (50, matrix.Elements[4], "C#7"); Assert.AreEqual (60, matrix.Elements[5], "C#8"); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void Constructor_Int_Null () { new Matrix (rect, null); } [Test] [ExpectedException (typeof (ArgumentException))] public void Constructor_Int_Empty () { new Matrix (rect, new Point[0]); } [Test] [ExpectedException (typeof (ArgumentException))] public void Constructor_Int_4Point () { new Matrix (rect, new Point[4]); } [Test] public void Constructor_Rect_Point () { Rectangle r = new Rectangle (100, 200, 300, 400); Matrix m = new Matrix (r, new Point[3] { new Point (10, 20), new Point (30, 40), new Point (50, 60) }); float[] elements = m.Elements; Assert.AreEqual (0.06666666, elements[0], 0.00001, "0"); Assert.AreEqual (0.06666666, elements[1], 0.00001, "1"); Assert.AreEqual (0.09999999, elements[2], 0.00001, "2"); Assert.AreEqual (0.09999999, elements[3], 0.00001, "3"); Assert.AreEqual (-16.6666679, elements[4], 0.00001, "4"); Assert.AreEqual (-6.666667, elements[5], 0.00001, "5"); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void Constructor_Float_Null () { new Matrix (rectf, null); } [Test] [ExpectedException (typeof (ArgumentException))] public void Constructor_Float_Empty () { new Matrix (rectf, new PointF[0]); } [Test] [ExpectedException (typeof (ArgumentException))] public void Constructor_Float_2PointF () { new Matrix (rectf, new PointF[2]); } [Test] public void Constructor_RectF_PointF () { RectangleF r = new RectangleF (100, 200, 300, 400); Matrix m = new Matrix (r, new PointF[3] { new PointF (10, 20), new PointF (30, 40), new PointF (50, 60) }); float[] elements = m.Elements; Assert.AreEqual (0.06666666, elements[0], 0.00001, "0"); Assert.AreEqual (0.06666666, elements[1], 0.00001, "1"); Assert.AreEqual (0.09999999, elements[2], 0.00001, "2"); Assert.AreEqual (0.09999999, elements[3], 0.00001, "3"); Assert.AreEqual (-16.6666679, elements[4], 0.00001, "4"); Assert.AreEqual (-6.666667, elements[5], 0.00001, "5"); } // Properties [Test] public void Invertible () { Matrix matrix = new Matrix (123, 24, 82, 16, 47, 30); Assert.AreEqual (false, matrix.IsInvertible, "I#1"); matrix = new Matrix (156, 46, 0, 0, 106, 19); Assert.AreEqual (false, matrix.IsInvertible, "I#2"); matrix = new Matrix (146, 66, 158, 104, 42, 150); Assert.AreEqual (true, matrix.IsInvertible, "I#3"); matrix = new Matrix (119, 140, 145, 74, 102, 58); Assert.AreEqual (true, matrix.IsInvertible, "I#4"); } [Test] public void IsIdentity () { Matrix identity = new Matrix (); Matrix matrix = new Matrix (123, 24, 82, 16, 47, 30); Assert.AreEqual (false, matrix.IsIdentity, "N#1-identity"); Assert.IsTrue (!identity.Equals (matrix), "N#1-equals"); matrix = new Matrix (1, 0, 0, 1, 0, 0); Assert.AreEqual (true, matrix.IsIdentity, "N#2-identity"); Assert.IsTrue (identity.Equals (matrix), "N#2-equals"); // so what's the required precision ? matrix = new Matrix (1.1f, 0.1f, -0.1f, 0.9f, 0, 0); Assert.IsTrue (!matrix.IsIdentity, "N#3-identity"); Assert.IsTrue (!identity.Equals (matrix), "N#3-equals"); matrix = new Matrix (1.01f, 0.01f, -0.01f, 0.99f, 0, 0); Assert.IsTrue (!matrix.IsIdentity, "N#4-identity"); Assert.IsTrue (!identity.Equals (matrix), "N#4-equals"); matrix = new Matrix (1.001f, 0.001f, -0.001f, 0.999f, 0, 0); Assert.IsTrue (!matrix.IsIdentity, "N#5-identity"); Assert.IsTrue (!identity.Equals (matrix), "N#5-equals"); matrix = new Matrix (1.0001f, 0.0001f, -0.0001f, 0.9999f, 0, 0); Assert.IsTrue (matrix.IsIdentity, "N#6-identity"); // note: NOT equal Assert.IsTrue (!identity.Equals (matrix), "N#6-equals"); matrix = new Matrix (1.0009f, 0.0009f, -0.0009f, 0.99995f, 0, 0); Assert.IsTrue (!matrix.IsIdentity, "N#7-identity"); Assert.IsTrue (!identity.Equals (matrix), "N#7-equals"); } [Test] public void IsOffsetX () { Matrix matrix = new Matrix (123, 24, 82, 16, 47, 30); Assert.AreEqual (47, matrix.OffsetX, "X#1"); } [Test] public void IsOffsetY () { Matrix matrix = new Matrix (123, 24, 82, 16, 47, 30); Assert.AreEqual (30, matrix.OffsetY, "Y#1"); } // Elements Property is checked implicity in other test // // Methods // [Test] public void Clone () { Matrix matsrc = new Matrix (10, 20, 30, 40, 50, 60); Matrix matrix = matsrc.Clone (); Assert.AreEqual (6, matrix.Elements.Length, "D#1"); Assert.AreEqual (10, matrix.Elements[0], "D#2"); Assert.AreEqual (20, matrix.Elements[1], "D#3"); Assert.AreEqual (30, matrix.Elements[2], "D#4"); Assert.AreEqual (40, matrix.Elements[3], "D#5"); Assert.AreEqual (50, matrix.Elements[4], "D#6"); Assert.AreEqual (60, matrix.Elements[5], "D#7"); } [Test] public void HashCode () { Matrix matrix = new Matrix (10, 20, 30, 40, 50, 60); Matrix clone = matrix.Clone (); Assert.IsTrue (matrix.GetHashCode () != clone.GetHashCode (), "HashCode/Clone"); Matrix matrix2 = new Matrix (10, 20, 30, 40, 50, 60); Assert.IsTrue (matrix.GetHashCode () != matrix2.GetHashCode (), "HashCode/Identical"); } [Test] public void Reset () { Matrix matrix = new Matrix (51, 52, 53, 54, 55, 56); matrix.Reset (); Assert.AreEqual (6, matrix.Elements.Length, "F#1"); Assert.AreEqual (1, matrix.Elements[0], "F#2"); Assert.AreEqual (0, matrix.Elements[1], "F#3"); Assert.AreEqual (0, matrix.Elements[2], "F#4"); Assert.AreEqual (1, matrix.Elements[3], "F#5"); Assert.AreEqual (0, matrix.Elements[4], "F#6"); Assert.AreEqual (0, matrix.Elements[5], "F#7"); } [Test] public void Rotate () { Matrix matrix = new Matrix (10, 20, 30, 40, 50, 60); matrix.Rotate (180); Assert.AreEqual (-10.0f, matrix.Elements[0], 0.0001, "H#1"); Assert.AreEqual (-20, matrix.Elements[1], 0.0001, "H#2"); Assert.AreEqual (-30.0000019f, matrix.Elements[2], 0.0001, "H#3"); Assert.AreEqual (-40.0000038f, matrix.Elements[3], 0.0001, "H#4"); Assert.AreEqual (50, matrix.Elements[4], "H#5"); Assert.AreEqual (60, matrix.Elements[5], "H#6"); } [Test] public void Rotate_45_135 () { Matrix matrix = new Matrix (); Assert.IsTrue (matrix.IsIdentity, "original.IsIdentity"); matrix.Rotate (45); Assert.IsTrue (!matrix.IsIdentity, "+45.!IsIdentity"); float[] elements = matrix.Elements; Assert.AreEqual (0.707106769f, elements[0], 0.0001, "45#1"); Assert.AreEqual (0.707106769f, elements[1], 0.0001, "45#2"); Assert.AreEqual (-0.707106829f, elements[2], 0.0001, "45#3"); Assert.AreEqual (0.707106769f, elements[3], 0.0001, "45#4"); Assert.AreEqual (0, elements[4], 0.001f, "45#5"); Assert.AreEqual (0, elements[5], 0.001f, "45#6"); matrix.Rotate (135); Assert.IsTrue (!matrix.IsIdentity, "+135.!IsIdentity"); elements = matrix.Elements; Assert.AreEqual (-1, elements[0], 0.0001, "180#1"); Assert.AreEqual (0, elements[1], 0.0001, "180#2"); Assert.AreEqual (0, elements[2], 0.0001, "180#3"); Assert.AreEqual (-1, elements[3], 0.0001, "180#4"); Assert.AreEqual (0, elements[4], "180#5"); Assert.AreEqual (0, elements[5], "180#6"); } [Test] public void Rotate_90_270_Matrix () { Matrix matrix = new Matrix (); Assert.IsTrue (matrix.IsIdentity, "original.IsIdentity"); matrix.Rotate (90); Assert.IsTrue (!matrix.IsIdentity, "+90.!IsIdentity"); float[] elements = matrix.Elements; Assert.AreEqual (0, elements[0], 0.0001, "90#1"); Assert.AreEqual (1, elements[1], 0.0001, "90#2"); Assert.AreEqual (-1, elements[2], 0.0001, "90#3"); Assert.AreEqual (0, elements[3], 0.0001, "90#4"); Assert.AreEqual (0, elements[4], "90#5"); Assert.AreEqual (0, elements[5], "90#6"); matrix.Rotate (270); // this isn't a perfect 1, 0, 0, 1, 0, 0 matrix - but close enough Assert.IsTrue (matrix.IsIdentity, "360.IsIdentity"); Assert.IsTrue (!new Matrix ().Equals (matrix), "360.Equals"); } [Test] [ExpectedException (typeof (ArgumentException))] public void Rotate_InvalidOrder () { new Matrix ().Rotate (180, (MatrixOrder) Int32.MinValue); } [Test] public void RotateAt () { Matrix matrix = new Matrix (10, 20, 30, 40, 50, 60); matrix.RotateAt (180, new PointF (10, 10)); Assert.AreEqual (-10, matrix.Elements[0], 0.01, "I#1"); Assert.AreEqual (-20, matrix.Elements[1], 0.01, "I#2"); Assert.AreEqual (-30, matrix.Elements[2], 0.01, "I#3"); Assert.AreEqual (-40, matrix.Elements[3], 0.01, "I#4"); Assert.AreEqual (850, matrix.Elements[4], 0.01, "I#5"); Assert.AreEqual (1260, matrix.Elements[5], 0.01, "I#6"); } [Test] [ExpectedException (typeof (ArgumentException))] public void RotateAt_InvalidOrder () { new Matrix ().RotateAt (180, new PointF (10, 10), (MatrixOrder) Int32.MinValue); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void Multiply_Null () { new Matrix (10, 20, 30, 40, 50, 60).Multiply (null); } [Test] public void Multiply () { Matrix matrix = new Matrix (10, 20, 30, 40, 50, 60); matrix.Multiply (new Matrix (10, 20, 30, 40, 50, 60)); Assert.AreEqual (700, matrix.Elements[0], "J#1"); Assert.AreEqual (1000, matrix.Elements[1], "J#2"); Assert.AreEqual (1500, matrix.Elements[2], "J#3"); Assert.AreEqual (2200, matrix.Elements[3], "J#4"); Assert.AreEqual (2350, matrix.Elements[4], "J#5"); Assert.AreEqual (3460, matrix.Elements[5], "J#6"); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void Multiply_Null_Order () { new Matrix (10, 20, 30, 40, 50, 60).Multiply (null, MatrixOrder.Append); } [Test] public void Multiply_Append () { Matrix matrix = new Matrix (10, 20, 30, 40, 50, 60); matrix.Multiply (new Matrix (10, 20, 30, 40, 50, 60), MatrixOrder.Append); Assert.AreEqual (700, matrix.Elements[0], "J#1"); Assert.AreEqual (1000, matrix.Elements[1], "J#2"); Assert.AreEqual (1500, matrix.Elements[2], "J#3"); Assert.AreEqual (2200, matrix.Elements[3], "J#4"); Assert.AreEqual (2350, matrix.Elements[4], "J#5"); Assert.AreEqual (3460, matrix.Elements[5], "J#6"); } [Test] public void Multiply_Prepend () { Matrix matrix = new Matrix (10, 20, 30, 40, 50, 60); matrix.Multiply (new Matrix (10, 20, 30, 40, 50, 60), MatrixOrder.Prepend); Assert.AreEqual (700, matrix.Elements[0], "J#1"); Assert.AreEqual (1000, matrix.Elements[1], "J#2"); Assert.AreEqual (1500, matrix.Elements[2], "J#3"); Assert.AreEqual (2200, matrix.Elements[3], "J#4"); Assert.AreEqual (2350, matrix.Elements[4], "J#5"); Assert.AreEqual (3460, matrix.Elements[5], "J#6"); } [Test] [ExpectedException (typeof (ArgumentException))] public void Multiply_InvalidOrder () { Matrix matrix = new Matrix (10, 20, 30, 40, 50, 60); matrix.Multiply (new Matrix (10, 20, 30, 40, 50, 60), (MatrixOrder)Int32.MinValue); } [Test] public void Equals () { Matrix mat1 = new Matrix (10, 20, 30, 40, 50, 60); Matrix mat2 = new Matrix (10, 20, 30, 40, 50, 60); Matrix mat3 = new Matrix (10, 20, 30, 40, 50, 10); Assert.AreEqual (true, mat1.Equals (mat2), "E#1"); Assert.AreEqual (false, mat2.Equals (mat3), "E#2"); Assert.AreEqual (false, mat1.Equals (mat3), "E#3"); } [Test] public void Invert () { Matrix matrix = new Matrix (1, 2, 3, 4, 5, 6); matrix.Invert (); Assert.AreEqual (-2, matrix.Elements[0], "V#1"); Assert.AreEqual (1, matrix.Elements[1], "V#2"); Assert.AreEqual (1.5, matrix.Elements[2], "V#3"); Assert.AreEqual (-0.5, matrix.Elements[3], "V#4"); Assert.AreEqual (1, matrix.Elements[4], "V#5"); Assert.AreEqual (-2, matrix.Elements[5], "V#6"); } [Test] public void Invert_Translation () { Matrix matrix = new Matrix (1, 0, 0, 1, 8, 8); matrix.Invert (); float[] elements = matrix.Elements; Assert.AreEqual (1, elements[0], "#1"); Assert.AreEqual (0, elements[1], "#2"); Assert.AreEqual (0, elements[2], "#3"); Assert.AreEqual (1, elements[3], "#4"); Assert.AreEqual (-8, elements[4], "#5"); Assert.AreEqual (-8, elements[5], "#6"); } [Test] public void Invert_Identity () { Matrix matrix = new Matrix (); Assert.IsTrue (matrix.IsIdentity, "IsIdentity"); Assert.IsTrue (matrix.IsInvertible, "IsInvertible"); matrix.Invert (); Assert.IsTrue (matrix.IsIdentity, "IsIdentity-2"); Assert.IsTrue (matrix.IsInvertible, "IsInvertible-2"); } [Test] public void Scale () { Matrix matrix = new Matrix (10, 20, 30, 40, 50, 60); matrix.Scale (2, 4); Assert.AreEqual (20, matrix.Elements[0], "S#1"); Assert.AreEqual (40, matrix.Elements[1], "S#2"); Assert.AreEqual (120, matrix.Elements[2], "S#3"); Assert.AreEqual (160, matrix.Elements[3], "S#4"); Assert.AreEqual (50, matrix.Elements[4], "S#5"); Assert.AreEqual (60, matrix.Elements[5], "S#6"); matrix.Scale (0.5f, 0.25f); Assert.AreEqual (10, matrix.Elements[0], "SB#1"); Assert.AreEqual (20, matrix.Elements[1], "SB#2"); Assert.AreEqual (30, matrix.Elements[2], "SB#3"); Assert.AreEqual (40, matrix.Elements[3], "SB#4"); Assert.AreEqual (50, matrix.Elements[4], "SB#5"); Assert.AreEqual (60, matrix.Elements[5], "SB#6"); } [Test] public void Scale_Negative () { Matrix matrix = new Matrix (10, 20, 30, 40, 50, 60); matrix.Scale (-2, -4); Assert.AreEqual (-20, matrix.Elements[0], "S#1"); Assert.AreEqual (-40, matrix.Elements[1], "S#2"); Assert.AreEqual (-120, matrix.Elements[2], "S#3"); Assert.AreEqual (-160, matrix.Elements[3], "S#4"); Assert.AreEqual (50, matrix.Elements[4], "S#5"); Assert.AreEqual (60, matrix.Elements[5], "S#6"); } [Test] [ExpectedException (typeof (ArgumentException))] public void Scale_InvalidOrder () { new Matrix ().Scale (2, 1, (MatrixOrder) Int32.MinValue); } [Test] public void Shear () { Matrix matrix = new Matrix (10, 20, 30, 40, 50, 60); matrix.Shear (2, 4); Assert.AreEqual (130, matrix.Elements[0], "H#1"); Assert.AreEqual (180, matrix.Elements[1], "H#2"); Assert.AreEqual (50, matrix.Elements[2], "H#3"); Assert.AreEqual (80, matrix.Elements[3], "H#4"); Assert.AreEqual (50, matrix.Elements[4], "H#5"); Assert.AreEqual (60, matrix.Elements[5], "H#6"); matrix = new Matrix (5, 3, 9, 2, 2, 1); matrix.Shear (10, 20); Assert.AreEqual (185, matrix.Elements[0], "H#7"); Assert.AreEqual (43, matrix.Elements[1], "H#8"); Assert.AreEqual (59, matrix.Elements[2], "H#9"); Assert.AreEqual (32, matrix.Elements[3], "H#10"); Assert.AreEqual (2, matrix.Elements[4], "H#11"); Assert.AreEqual (1, matrix.Elements[5], "H#12"); } [Test] [ExpectedException (typeof (ArgumentException))] public void Shear_InvalidOrder () { new Matrix ().Shear (-1, 1, (MatrixOrder) Int32.MinValue); } [Test] public void TransformPoints () { Matrix matrix = new Matrix (2, 4, 6, 8, 10, 12); PointF [] pointsF = new PointF [] {new PointF (2, 4), new PointF (4, 8)}; matrix.TransformPoints (pointsF); Assert.AreEqual (38, pointsF[0].X, "K#1"); Assert.AreEqual (52, pointsF[0].Y, "K#2"); Assert.AreEqual (66, pointsF[1].X, "K#3"); Assert.AreEqual (92, pointsF[1].Y, "K#4"); Point [] points = new Point [] {new Point (2, 4), new Point (4, 8)}; matrix.TransformPoints (points); Assert.AreEqual (38, pointsF[0].X, "K#5"); Assert.AreEqual (52, pointsF[0].Y, "K#6"); Assert.AreEqual (66, pointsF[1].X, "K#7"); Assert.AreEqual (92, pointsF[1].Y, "K#8"); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void TransformPoints_Point_Null () { new Matrix ().TransformPoints ((Point[]) null); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void TransformPoints_PointF_Null () { new Matrix ().TransformPoints ((PointF[]) null); } [Test] [ExpectedException (typeof (ArgumentException))] public void TransformPoints_Point_Empty () { new Matrix ().TransformPoints (new Point[0]); } [Test] [ExpectedException (typeof (ArgumentException))] public void TransformPoints_PointF_Empty () { new Matrix ().TransformPoints (new PointF[0]); } [Test] public void TransformVectors () { Matrix matrix = new Matrix (2, 4, 6, 8, 10, 12); PointF [] pointsF = new PointF [] {new PointF (2, 4), new PointF (4, 8)}; matrix.TransformVectors (pointsF); Assert.AreEqual (28, pointsF[0].X, "N#1"); Assert.AreEqual (40, pointsF[0].Y, "N#2"); Assert.AreEqual (56, pointsF[1].X, "N#3"); Assert.AreEqual (80, pointsF[1].Y, "N#4"); Point [] points = new Point [] {new Point (2, 4), new Point (4, 8)}; matrix.TransformVectors (points); Assert.AreEqual (28, pointsF[0].X, "N#5"); Assert.AreEqual (40, pointsF[0].Y, "N#6"); Assert.AreEqual (56, pointsF[1].X, "N#7"); Assert.AreEqual (80, pointsF[1].Y, "N#8"); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void TransformVectors_Point_Null () { new Matrix ().TransformVectors ((Point[]) null); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void TransformVectors_PointF_Null () { new Matrix ().TransformVectors ((PointF[]) null); } [Test] [ExpectedException (typeof (ArgumentException))] public void TransformVectors_Point_Empty () { new Matrix ().TransformVectors (new Point[0]); } [Test] [ExpectedException (typeof (ArgumentException))] public void TransformVectors_PointF_Empty () { new Matrix ().TransformVectors (new PointF[0]); } [Test] public void Translate () { Matrix matrix = new Matrix (2, 4, 6, 8, 10, 12); matrix.Translate (5, 10); Assert.AreEqual (2, matrix.Elements[0], "Y#1"); Assert.AreEqual (4, matrix.Elements[1], "Y#2"); Assert.AreEqual (6, matrix.Elements[2], "Y#3"); Assert.AreEqual (8, matrix.Elements[3], "Y#4"); Assert.AreEqual (80, matrix.Elements[4], "Y#5"); Assert.AreEqual (112, matrix.Elements[5], "Y#6"); } [Test] [ExpectedException (typeof (ArgumentException))] public void Translate_InvalidOrder () { new Matrix ().Translate (-1, 1, (MatrixOrder) Int32.MinValue); } [Test] [ExpectedException (typeof (ArgumentNullException))] public void VectorTransformPoints_Null () { new Matrix ().VectorTransformPoints ((Point[]) null); } [Test] [ExpectedException (typeof (ArgumentException))] public void VectorTransformPoints_Empty () { new Matrix ().VectorTransformPoints (new Point[0]); } } }