#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;
#endregion // Datatype usings
namespace ANX.Framework.TestCenter
{
class AssertHelper
{
public static bool CompareFloats(float a, float b, float epsilon)
{
return (float)Math.Abs((double)(a - b)) < epsilon;
}
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(float a, float b, String test)
{
if (a.Equals(b))
{
Assert.Pass(test + " passed");
}
else
{
Assert.Fail(String.Format("{0} failed: float a: ({1}) float b: ({2})", test, a, b));
}
}
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)
{
//comparing string to catch "not defined" and "infinity" (which seems not to be equal)
float epsilon = 0.000001f;
if (anx.X.ToString().Equals(xna.X.ToString()) && anx.Y.ToString().Equals(xna.Y.ToString()) ||
(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)
{
//comparing string to catch "not defined" and "infinity" (which seems not to be equal)
if (anx.X.ToString().Equals(anx.X.ToString()) && anx.Y.ToString().Equals(anx.Y.ToString()))
{
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(XNAVector3 xna, ANXVector3 anx, String test)
{
//comparing string to catch "not defined" and "infinity" (which seems not to be equal)
float epsilon = 0.000001f;
if (anx.X.ToString().Equals(xna.X.ToString()) && anx.Y.ToString().Equals(xna.Y.ToString()) && anx.Z.ToString().Equals(xna.Z.ToString()) ||
(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(XNAVector4 xna, ANXVector4 anx, String test)
{
//comparing string to catch "not defined" and "infinity" (which seems not to be equal)
float epsilon = 0.000001f;
if (anx.X.ToString().Equals(xna.X.ToString()) && anx.Y.ToString().Equals(xna.Y.ToString()) && anx.Z.ToString().Equals(xna.Z.ToString()) && anx.W.ToString().Equals(xna.W.ToString()) ||
(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(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)
{
//comparing string to catch "not defined" and "infinity" (which seems not to be equal)
if (xna.ToString().Equals(anx.ToString()))
{
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)
{
if (xna.Matrix.M11 == anx.Matrix.M11 &&
xna.Matrix.M12 == anx.Matrix.M12 &&
xna.Matrix.M13 == anx.Matrix.M13 &&
xna.Matrix.M14 == anx.Matrix.M14 &&
xna.Matrix.M21 == anx.Matrix.M21 &&
xna.Matrix.M22 == anx.Matrix.M22 &&
xna.Matrix.M23 == anx.Matrix.M23 &&
xna.Matrix.M24 == anx.Matrix.M24 &&
xna.Matrix.M31 == anx.Matrix.M31 &&
xna.Matrix.M32 == anx.Matrix.M32 &&
xna.Matrix.M33 == anx.Matrix.M33 &&
xna.Matrix.M34 == anx.Matrix.M34 &&
xna.Matrix.M41 == anx.Matrix.M41 &&
xna.Matrix.M42 == anx.Matrix.M42 &&
xna.Matrix.M43 == anx.Matrix.M43 &&
xna.Matrix.M44 == anx.Matrix.M44)
{
Assert.Pass(test + " passed");
}
else
{
Assert.Fail(String.Format("{0} failed: xna({1}) anx({2})", test, xna.ToString(), anx.ToString()));
}
}
public static void ConvertEquals(XNAPlane xna, ANXPlane anx, String test)
{
if (xna.D == anx.D &&
xna.Normal.X == anx.Normal.X &&
xna.Normal.Y == anx.Normal.Y &&
xna.Normal.Z == anx.Normal.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(XNAMatrix xna, ANXMatrix anx, String test)
{
if (xna.M11.Equals(anx.M11) &&
xna.M12.Equals(anx.M12) &&
xna.M13.Equals(anx.M13) &&
xna.M14.Equals(anx.M14) &&
xna.M21.Equals(anx.M21) &&
xna.M22.Equals(anx.M22) &&
xna.M23.Equals(anx.M23) &&
xna.M24.Equals(anx.M24) &&
xna.M31.Equals(anx.M31) &&
xna.M32.Equals(anx.M32) &&
xna.M33.Equals(anx.M33) &&
xna.M34.Equals(anx.M34) &&
xna.M41.Equals(anx.M41) &&
xna.M42.Equals(anx.M42) &&
xna.M43.Equals(anx.M43) &&
xna.M44.Equals(anx.M44))
{
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)
{
float epsilon = 0.0000001f;
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()));
}
}
}
}