#region Using Statements using System; using System.Collections.Generic; using System.Linq; using System.Text; using NUnit.Framework; #endregion // Using Statements #region License // // This file is part of the ANX.Framework created by the "ANX.Framework developer group". // // This file is released under the Ms-PL license. // // // // Microsoft Public License (Ms-PL) // // This license governs use of the accompanying software. If you use the software, you accept this license. // If you do not accept the license, do not use the software. // // 1.Definitions // The terms "reproduce," "reproduction," "derivative works," and "distribution" have the same meaning // here as under U.S. copyright law. // A "contribution" is the original software, or any additions or changes to the software. // A "contributor" is any person that distributes its contribution under this license. // "Licensed patents" are a contributor's patent claims that read directly on its contribution. // // 2.Grant of Rights // (A) Copyright Grant- Subject to the terms of this license, including the license conditions and limitations // in section 3, each contributor grants you a non-exclusive, worldwide, royalty-free copyright license to // reproduce its contribution, prepare derivative works of its contribution, and distribute its contribution // or any derivative works that you create. // (B) Patent Grant- Subject to the terms of this license, including the license conditions and limitations in // section 3, each contributor grants you a non-exclusive, worldwide, royalty-free license under its licensed // patents to make, have made, use, sell, offer for sale, import, and/or otherwise dispose of its contribution // in the software or derivative works of the contribution in the software. // // 3.Conditions and Limitations // (A) No Trademark License- This license does not grant you rights to use any contributors' name, logo, or trademarks. // (B) If you bring a patent claim against any contributor over patents that you claim are infringed by the software, your // patent license from such contributor to the software ends automatically. // (C) If you distribute any portion of the software, you must retain all copyright, patent, trademark, and attribution // notices that are present in the software. // (D) If you distribute any portion of the software in source code form, you may do so only under this license by including // a complete copy of this license with your distribution. If you distribute any portion of the software in compiled or // object code form, you may only do so under a license that complies with this license. // (E) The software is licensed "as-is." You bear the risk of using it. The contributors give no express warranties, guarantees, // or conditions. You may have additional consumer rights under your local laws which this license cannot change. To the // extent permitted under your local laws, the contributors exclude the implied warranties of merchantability, fitness for a // particular purpose and non-infringement. #endregion // License #region Datatype Usings using XNAColor = Microsoft.Xna.Framework.Color; using ANXColor = ANX.Framework.Color; using XNAVector2 = Microsoft.Xna.Framework.Vector2; using ANXVector2 = ANX.Framework.Vector2; using XNAVector3 = Microsoft.Xna.Framework.Vector3; using ANXVector3 = ANX.Framework.Vector3; using XNAVector4 = Microsoft.Xna.Framework.Vector4; using ANXVector4 = ANX.Framework.Vector4; using XNABoundingBox = Microsoft.Xna.Framework.BoundingBox; using ANXBoundingBox = ANX.Framework.BoundingBox; using XNABoundingSphere = Microsoft.Xna.Framework.BoundingSphere; using ANXBoundingSphere = ANX.Framework.BoundingSphere; using XNABoundingFrustum = Microsoft.Xna.Framework.BoundingFrustum; using ANXBoundingFrustum = ANX.Framework.BoundingFrustum; using XNAPlane = Microsoft.Xna.Framework.Plane; using ANXPlane = ANX.Framework.Plane; using XNARect = Microsoft.Xna.Framework.Rectangle; using ANXRect = ANX.Framework.Rectangle; using XNABgr565 = Microsoft.Xna.Framework.Graphics.PackedVector.Bgr565; using ANXBgr565 = ANX.Framework.Graphics.PackedVector.Bgr565; using XNABgra5551 = Microsoft.Xna.Framework.Graphics.PackedVector.Bgra5551; using ANXBgra5551 = ANX.Framework.Graphics.PackedVector.Bgra5551; using XNABgra4444 = Microsoft.Xna.Framework.Graphics.PackedVector.Bgra4444; using ANXBgra4444 = ANX.Framework.Graphics.PackedVector.Bgra4444; using XNAByte4 = Microsoft.Xna.Framework.Graphics.PackedVector.Byte4; using ANXByte4 = ANX.Framework.Graphics.PackedVector.Byte4; using XNAHalfSingle = Microsoft.Xna.Framework.Graphics.PackedVector.HalfSingle; using ANXHalfSingle = ANX.Framework.Graphics.PackedVector.HalfSingle; using XNAHalfVector2 = Microsoft.Xna.Framework.Graphics.PackedVector.HalfVector2; using ANXHalfVector2 = ANX.Framework.Graphics.PackedVector.HalfVector2; using XNAHalfVector4 = Microsoft.Xna.Framework.Graphics.PackedVector.HalfVector4; using ANXHalfVector4 = ANX.Framework.Graphics.PackedVector.HalfVector4; using XNARg32 = Microsoft.Xna.Framework.Graphics.PackedVector.Rg32; using ANXRg32 = ANX.Framework.Graphics.PackedVector.Rg32; using XNARgba1010102 = Microsoft.Xna.Framework.Graphics.PackedVector.Rgba1010102; using ANXRgba1010102 = ANX.Framework.Graphics.PackedVector.Rgba1010102; using XNARgba64 = Microsoft.Xna.Framework.Graphics.PackedVector.Rgba64; using ANXRgba64 = ANX.Framework.Graphics.PackedVector.Rgba64; using XNANormalizedByte2 = Microsoft.Xna.Framework.Graphics.PackedVector.NormalizedByte2; using ANXNormalizedByte2 = ANX.Framework.Graphics.PackedVector.NormalizedByte2; using XNANormalizedByte4 = Microsoft.Xna.Framework.Graphics.PackedVector.NormalizedByte4; using ANXNormalizedByte4 = ANX.Framework.Graphics.PackedVector.NormalizedByte4; using XNANormalizedShort2 = Microsoft.Xna.Framework.Graphics.PackedVector.NormalizedShort2; using ANXNormalizedShort2 = ANX.Framework.Graphics.PackedVector.NormalizedShort2; using XNANormalizedShort4 = Microsoft.Xna.Framework.Graphics.PackedVector.NormalizedShort4; using ANXNormalizedShort4 = ANX.Framework.Graphics.PackedVector.NormalizedShort4; using XNAShort2 = Microsoft.Xna.Framework.Graphics.PackedVector.Short2; using ANXShort2 = ANX.Framework.Graphics.PackedVector.Short2; using XNAShort4 = Microsoft.Xna.Framework.Graphics.PackedVector.Short4; using ANXShort4 = ANX.Framework.Graphics.PackedVector.Short4; using XNAMatrix = Microsoft.Xna.Framework.Matrix; using ANXMatrix = ANX.Framework.Matrix; using XNAQuaternion = Microsoft.Xna.Framework.Quaternion; using ANXQuaternion = ANX.Framework.Quaternion; using XNAStorageDevice = Microsoft.Xna.Framework.Storage.StorageDevice; using ANXStorageDevice = ANX.Framework.Storage.StorageDevice; using XNAStorageContainer = Microsoft.Xna.Framework.Storage.StorageContainer; using ANXStorageContainer = ANX.Framework.Storage.StorageContainer; using XNACurve = Microsoft.Xna.Framework.Curve; using ANXCurve = ANX.Framework.Curve; using XNACurveKey = Microsoft.Xna.Framework.CurveKey; using ANXCurveKey = ANX.Framework.CurveKey; using XNACurveContinuity = Microsoft.Xna.Framework.CurveContinuity; using ANXCurveContinuity = ANX.Framework.CurveContinuity; using XNACurveLoopType = Microsoft.Xna.Framework.CurveLoopType; using ANXCurveLoopType = ANX.Framework.CurveLoopType; using XNACurveKeyCollection = Microsoft.Xna.Framework.CurveKeyCollection; using ANXCurveKeyCollection = ANX.Framework.CurveKeyCollection; using XNACurveTangent = Microsoft.Xna.Framework.CurveTangent; using ANXCurveTangent = ANX.Framework.CurveTangent; using XNAGamePadState = Microsoft.Xna.Framework.Input.GamePadState; using ANXGamePadState = ANX.Framework.Input.GamePadState; #endregion // Datatype usings namespace ANX.Framework.TestCenter { class AssertHelper { private const float epsilon = 0.0000001f; private const int complementBits = 5; #region Compare public static bool CompareFloats(float a, float b, float epsilon) { // Ok, but not right in all cases //return (float)Math.Abs((double)(a - b)) < epsilon; // better, but not perfect //float absA = Math.Abs(a); //float absB = Math.Abs(b); //float diff = Math.Abs(a - b); //if (diff == 0.0f) //{ // return true; //} //else if (a * b == 0) //{ // // a or b or both are zero // // relative error is not meaningful here // return diff < (epsilon * epsilon); //} //else //{ // // use relative error // return diff / (absA + absB) < epsilon; //} // ok return AlmostEqual2sComplement(a, b, complementBits); } private static unsafe int FloatToInt32Bits(float f) { return *((int*)&f); } private static bool AlmostEqual2sComplement(float a, float b, int maxDeltaBits) { int aInt = FloatToInt32Bits(a); if (aInt < 0) { aInt = Int32.MinValue - aInt; } int bInt = FloatToInt32Bits(b); if (bInt < 0) { bInt = Int32.MinValue - bInt; } int intDiff = Math.Abs(aInt - bInt); return intDiff <= (1 << maxDeltaBits); } private static bool Compare(XNACurve xna, ANXCurve anx) { return (xna.IsConstant == anx.IsConstant) && (Compare(xna.Keys, anx.Keys)) && (Compare(xna.PreLoop, anx.PreLoop)) && (Compare(xna.PostLoop, anx.PostLoop)); } private static bool Compare(XNACurveLoopType xna, ANXCurveLoopType anx) { return ((int)xna == (int)anx); } private static bool Compare(XNACurveKeyCollection xna, ANXCurveKeyCollection anx) { if (xna.Count != anx.Count) { return false; } else { for (int i = 0; i < xna.Count; i++) { if (!Compare(xna[i], anx[i])) { return false; } } } return true; } private static bool Compare(XNACurveKey xna, ANXCurveKey anx) { return xna.Position == anx.Position && xna.Value == anx.Value && xna.TangentIn == anx.TangentIn && xna.TangentOut == anx.TangentOut && Compare(xna.Continuity, anx.Continuity); } private static bool Compare(XNACurveContinuity xna, ANXCurveContinuity anx) { return ((int)xna == (int)anx); } private static bool Compare(XNAStorageDevice xna, ANXStorageDevice anx) { return (xna.FreeSpace == anx.FreeSpace) && (xna.IsConnected == anx.IsConnected) && (xna.TotalSpace == anx.TotalSpace); } #endregion #region ConvertEquals public static void ConvertEquals(float xna, float anx, String test) { if (AssertHelper.CompareFloats(xna, anx, epsilon) || (xna + epsilon >= float.MaxValue && anx + epsilon >= float.MaxValue) || (xna - epsilon <= float.MinValue && anx - epsilon <= float.MinValue)) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: xna: ({1}) anx: ({2})", test, xna.ToString(), anx.ToString())); } } public static void ConvertEquals(Exception xna, Exception anx, String test) { if (xna.GetType() == anx.GetType()) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: xna: ({1}) anx: ({2})", test, xna.ToString(), anx.ToString())); } } public static void ConvertEquals(String xna, String anx, String test) { if (xna == anx) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: xna: ({1}) anx: ({2})", test, xna, anx)); } } public static void ConvertEquals(bool xna, bool anx, String test) { if (xna == anx) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: xna: ({1}) anx: ({2})", test, xna.ToString(), anx.ToString())); } } public static void ConvertEquals(XNABgr565 lhs, ANXBgr565 rhs, String test) { if (lhs.PackedValue == rhs.PackedValue) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: Bgr565 XNA: ({1}) Bgr565 ANX: ({2})", test, lhs, rhs)); } } public static void ConvertEquals(XNABgra5551 lhs, ANXBgra5551 rhs, String test) { if (lhs.PackedValue == rhs.PackedValue) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: Bgra5551 XNA: ({1}) Bgra5551 ANX: ({2})", test, lhs, rhs)); } } public static void ConvertEquals(XNABgra4444 lhs, ANXBgra4444 rhs, String test) { if (lhs.PackedValue == rhs.PackedValue) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: Bgra4444 XNA: ({1}) Bgra4444 ANX: ({2})", test, lhs, rhs)); } } public static void ConvertEquals(XNAByte4 lhs, ANXByte4 rhs, String test) { if (lhs.PackedValue == rhs.PackedValue) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: Byte4 XNA: ({1}) Byte4 ANX: ({2})", test, lhs, rhs)); } } public static void ConvertEquals(XNAHalfSingle lhs, ANXHalfSingle rhs, String test) { if (lhs.PackedValue == rhs.PackedValue) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: HalfSingle XNA: ({1}) HalfSingle ANX: ({2})", test, lhs, rhs)); } } public static void ConvertEquals(XNAHalfVector2 lhs, ANXHalfVector2 rhs, String test) { if (lhs.PackedValue == rhs.PackedValue) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: HalfVector2 XNA: ({1}) HalfVector2 ANX: ({2})", test, lhs, rhs)); } } public static void ConvertEquals(XNAHalfVector4 lhs, ANXHalfVector4 rhs, String test) { if (lhs.PackedValue == rhs.PackedValue) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: HalfVector4 XNA: ({1}) HalfVector4 ANX: ({2})", test, lhs, rhs)); } } public static void ConvertEquals(XNARg32 lhs, ANXRg32 rhs, String test) { if (lhs.PackedValue == rhs.PackedValue) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: Rg32 XNA: ({1}) Rg32 ANX: ({2})", test, lhs, rhs)); } } public static void ConvertEquals(XNARgba1010102 lhs, ANXRgba1010102 rhs, String test) { if (lhs.PackedValue == rhs.PackedValue) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: Rgba1010102 XNA: ({1}) Rgba1010102 ANX: ({2})", test, lhs, rhs)); } } public static void ConvertEquals(XNARgba64 lhs, ANXRgba64 rhs, String test) { if (lhs.PackedValue == rhs.PackedValue) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: Rgba64 XNA: ({1}) Rgba64 ANX: ({2})", test, lhs, rhs)); } } public static void ConvertEquals(XNANormalizedByte2 lhs, ANXNormalizedByte2 rhs, String test) { if (lhs.PackedValue == rhs.PackedValue) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: NormalizedByte2 XNA: ({1}) NormalizedByte2 ANX: ({2})", test, lhs, rhs)); } } public static void ConvertEquals(XNANormalizedByte4 lhs, ANXNormalizedByte4 rhs, String test) { if (lhs.PackedValue == rhs.PackedValue) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: NormalizedByte4 XNA: ({1}) NormalizedByte4 ANX: ({2})", test, lhs, rhs)); } } public static void ConvertEquals(XNANormalizedShort2 lhs, ANXNormalizedShort2 rhs, String test) { if (lhs.PackedValue == rhs.PackedValue) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: NormalizedShort2 XNA: ({1}) NormalizedShort2 ANX: ({2})", test, lhs, rhs)); } } public static void ConvertEquals(XNANormalizedShort4 lhs, ANXNormalizedShort4 rhs, String test) { if (lhs.PackedValue == rhs.PackedValue) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: NormalizedShort4 XNA: ({1}) NormalizedShort4 ANX: ({2})", test, lhs, rhs)); } } public static void ConvertEquals(XNAShort2 lhs, ANXShort2 rhs, String test) { if (lhs.PackedValue == rhs.PackedValue) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: Short2 XNA: ({1}) Short2 ANX: ({2})", test, lhs, rhs)); } } public static void ConvertEquals(XNAShort4 lhs, ANXShort4 rhs, String test) { if (lhs.PackedValue == rhs.PackedValue) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: Short4 XNA: ({1}) Short4 ANX: ({2})", test, lhs, rhs)); } } public static void ConvertEquals(byte a, byte b, String test) { if (a == b) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: byte a: ({1}) byte b: ({2})", test, a, b)); } } public static void ConvertEquals(XNAColor xna, ANXColor anx, String test) { if (xna.R == anx.R && xna.G == anx.G && xna.B == anx.B && xna.A == anx.A) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: xna({1}) anx({2})", test, xna.ToString(), anx.ToString())); } } public static void ConvertEquals(XNAVector2 xna, ANXVector2 anx, String test) { if (CompareFloats(xna.X, anx.X, epsilon) && CompareFloats(xna.Y, anx.Y, epsilon)) { Assert.Pass(test + " passed"); } else { Assert.Fail(test + " failed: xna({" + xna.X + "}{" + xna.Y + "}) anx({" + anx.X + "}{" + anx.Y + "})"); } } public static void ConvertEquals(ANXVector2 xna, ANXVector2 anx, String test) { if (CompareFloats(xna.X, anx.X, epsilon) && CompareFloats(xna.Y, anx.Y, epsilon)) { Assert.Pass(test + " passed"); } else { Assert.Fail(test + " failed: anx({" + xna.X + "}{" + xna.Y + "}) compared to anx({" + anx.X + "}{" + anx.Y + "})"); } } public static void ConvertEquals(XNAVector2[] xna, ANXVector2[] anx, String test) { bool result = true; string xnaString = string.Empty; string anxString = string.Empty; for (int i = 0; i < xna.Length; i++) { result = CompareFloats(xna[i].X, anx[i].X, epsilon) && CompareFloats(xna[i].Y, anx[i].Y, epsilon); xnaString = xna[i].ToString() + " "; anxString = anx[i].ToString() + " "; if (!result) break; } if (result) { Assert.Pass(test + " passed"); } else { Assert.Fail(string.Format("{0} failed: xna({1}) anx({2})", test, xnaString, anxString)); } } public static void ConvertEquals(XNAVector3 xna, ANXVector3 anx, String test) { if (CompareFloats(xna.X, anx.X, epsilon) && CompareFloats(xna.Y, anx.Y, epsilon) && CompareFloats(xna.Z, anx.Z, epsilon)) { Assert.Pass(test + " passed"); } else { Assert.Fail(string.Format("{0} failed: xna({1},{2},{3}) anx({4},{5},{6})", test, xna.X, xna.Y, xna.Z, anx.X, anx.Y, anx.Z)); } } public static void ConvertEquals(XNAVector3[] xna, ANXVector3[] anx, String test) { bool result = true; string xnaString = string.Empty; string anxString = string.Empty; for (int i = 0; i < xna.Length; i++) { result = CompareFloats(xna[i].X, anx[i].X, epsilon) && CompareFloats(xna[i].Y, anx[i].Y, epsilon) && CompareFloats(xna[i].Z, anx[i].Z, epsilon); xnaString += xna[i].ToString() + " "; anxString += anx[i].ToString() + " "; if (!result) break; } if (result) { Assert.Pass(test + " passed"); } else { Assert.Fail(string.Format("{0} failed: xna({1}) anx({2})", test, xnaString, anxString)); } } public static void ConvertEquals(XNAVector4 xna, ANXVector4 anx, String test) { if (CompareFloats(xna.X, anx.X, epsilon) && CompareFloats(xna.Y, anx.Y, epsilon) && CompareFloats(xna.Z, anx.Z, epsilon) && CompareFloats(xna.W, anx.W, epsilon)) { Assert.Pass(test + " passed"); } else { Assert.Fail(string.Format("{0} failed: xna({1},{2},{3},{4}) anx({5},{6},{7},{8})", test, xna.X, xna.Y, xna.Z, xna.W, anx.X, anx.Y, anx.Z, anx.W)); } } public static void ConvertEquals(XNAVector4[] xna, ANXVector4[] anx, String test) { bool result = true; string xnaString = string.Empty; string anxString = string.Empty; for (int i = 0; i < xna.Length; i++) { result = CompareFloats(xna[i].X, anx[i].X, epsilon) && CompareFloats(xna[i].Y, anx[i].Y, epsilon) && CompareFloats(xna[i].Z, anx[i].Z, epsilon) && CompareFloats(xna[i].W, anx[i].W, epsilon); xnaString += xna[i].ToString() + " "; anxString += anx[i].ToString() + " "; if (!result) break; } if (result) { Assert.Pass(test + " passed"); } else { Assert.Fail(string.Format("{0} failed: xna({1}) anx({2})", test, xnaString, anxString)); } } public static void ConvertEquals(XNABoundingBox xna, ANXBoundingBox anx, String test) { if (xna.Min.X == anx.Min.X && xna.Min.Y == anx.Min.Y && xna.Min.Z == anx.Min.Z && xna.Max.X == anx.Max.X && xna.Max.Y == anx.Max.Y && xna.Max.Z == anx.Max.Z) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: xna({1}) anx({2})", test, xna.ToString(), anx.ToString())); } } public static void ConvertEquals(XNABoundingSphere xna, ANXBoundingSphere anx, String test) { if (xna.Center.X == anx.Center.X && xna.Center.Y == anx.Center.Y && xna.Center.Z == anx.Center.Z && xna.Radius == anx.Radius) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: xna({1}) anx({2})", test, xna.ToString(), anx.ToString())); } } public static void ConvertEquals(XNARect xna, ANXRect anx, String test) { if (xna.X == anx.X && xna.Y == anx.Y && xna.Width == anx.Width && xna.Height == anx.Height) { Assert.Pass(test + " passed"); } else { Assert.Fail(test + " failed: xna({" + xna.X + "}{" + xna.Y + "}{" + xna.Width + "}{" + xna.Height + "}) anx({" + anx.X + "}{" + anx.Y + "}{" + anx.Width + "}{" + anx.Height + "})"); } } public static void ConvertEquals(XNABoundingFrustum xna, ANXBoundingFrustum anx, String test) { ConvertEquals(xna.Matrix, anx.Matrix, test); } public static void ConvertEquals(XNAPlane xna, ANXPlane anx, String test) { if (CompareFloats(xna.D, anx.D, epsilon) && CompareFloats(xna.Normal.X, anx.Normal.X, epsilon) && CompareFloats(xna.Normal.Y, anx.Normal.Y, epsilon) && CompareFloats(xna.Normal.Z, anx.Normal.Z, epsilon)) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: xna({1}) anx({2})", test, xna.ToString(), anx.ToString())); } } public static void ConvertEquals(XNAMatrix xna, ANXMatrix anx, String test) { if (CompareFloats(xna.M11, anx.M11, epsilon) && CompareFloats(xna.M12, anx.M12, epsilon) && CompareFloats(xna.M13, anx.M13, epsilon) && CompareFloats(xna.M14, anx.M14, epsilon) && CompareFloats(xna.M21, anx.M21, epsilon) && CompareFloats(xna.M22, anx.M22, epsilon) && CompareFloats(xna.M23, anx.M23, epsilon) && CompareFloats(xna.M24, anx.M24, epsilon) && CompareFloats(xna.M31, anx.M31, epsilon) && CompareFloats(xna.M32, anx.M32, epsilon) && CompareFloats(xna.M33, anx.M33, epsilon) && CompareFloats(xna.M34, anx.M34, epsilon) && CompareFloats(xna.M41, anx.M41, epsilon) && CompareFloats(xna.M42, anx.M42, epsilon) && CompareFloats(xna.M43, anx.M43, epsilon) && CompareFloats(xna.M44, anx.M44, epsilon)) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: xna({1}) anx({2})", test, xna.ToString(), anx.ToString())); } } public static void ConvertEquals(XNAQuaternion xna, ANXQuaternion anx, String test) { if (CompareFloats(xna.X, anx.X, epsilon) && CompareFloats(xna.Y, anx.Y, epsilon) && CompareFloats(xna.Z, anx.Z, epsilon) && CompareFloats(xna.W, anx.W, epsilon)) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: xna({1}) anx({2})", test, xna.ToString(), anx.ToString())); } } public static void ConvertEquals(XNAStorageDevice xna, ANXStorageDevice anx, String test) { if (Compare(xna, anx)) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: xna({1}) anx({2})", test, xna.ToString(), anx.ToString())); } } public static void ConvertEquals(XNAStorageContainer xna, ANXStorageContainer anx, String test) { if ((Compare(xna.StorageDevice, anx.StorageDevice)) && (xna.IsDisposed == anx.IsDisposed) && (xna.DisplayName == anx.DisplayName)) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: xna({1}) anx({2})", test, xna.ToString(), anx.ToString())); } } public static void ConvertEquals(XNACurve xna, ANXCurve anx, String test) { if (Compare(xna, anx)) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: xna({1}) anx({2})", test, xna.ToString(), anx.ToString())); } } public static void ConvertEquals(XNACurve xna, XNACurve xna2, ANXCurve anx, ANXCurve anx2, String test) { if (Compare(xna, anx) && Compare(xna2, anx) && Compare(xna2, anx2)) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: xna({1}) anx({2})", test, xna.ToString(), anx.ToString())); } } public static void ConvertEquals(XNAGamePadState xna, ANXGamePadState anx, String test) { if ((xna.Buttons.ToString() == anx.Buttons.ToString()) && (xna.DPad.ToString() == anx.DPad.ToString()) && (xna.IsConnected == anx.IsConnected) && (xna.ThumbSticks.ToString() == anx.ThumbSticks.ToString()) && (xna.Triggers.ToString() == anx.Triggers.ToString())) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: xna({1}) anx({2})", test, xna.ToString(), anx.ToString())); } } public static void ConvertEquals(XNACurveKey xna, ANXCurveKey anx, String test) { if (Compare(xna, anx)) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: xna({1}) anx({2})", test, xna.ToString(), anx.ToString())); } } internal static void ConvertEquals(XNACurveKey xna, ANXCurveKey anx, XNACurveKey xna2, ANXCurveKey anx2, String test) { if (Compare(xna, anx)&&Compare(xna,anx2)&&Compare(xna2,anx2)) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: xna({1}) anx({2})", test, xna.ToString(), anx.ToString())); } } public static void ConvertEquals(XNACurveKeyCollection xna, ANXCurveKeyCollection anx, String test) { if (Compare(xna,anx)) { Assert.Pass(test + " passed"); } else { Assert.Fail(String.Format("{0} failed: xna({1}) anx({2})", test, xna.ToString(), anx.ToString())); } } public static void ConvertEquals(XNACurveKey[] xna, ANXCurveKey[] anx, String test) { if (!(xna.Length == anx.Length)) { Assert.Fail(String.Format("{0} failed: xna({1}) anx({2})", test, xna.ToString(), anx.ToString())); } for (int i = 0; i < xna.Length; i++) { if (!(Compare(xna[i], anx[i]))) { Assert.Fail(String.Format("{0} failed: xna({1}) anx({2})", test, xna.ToString(), anx.ToString())); } } Assert.Pass(test + " passed"); } #endregion } }