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pull from: Syntriax:development
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Syntriax:development Syntriax:main Syntriax:tests Syntriax:perf/event-memory-allocations Syntriax:net8

16 Commits
main ... developmen

Author SHA1 Message Date
Syntriax
b9f3227f73 refactor: removed parameters on triangle batch calls on TriangleBatcher for multi window support 2026-01-28 22:19:04 +03:00
Syntriax
c68de39c83 fix: MonoGame view matrix calculation issues 2026-01-28 12:58:25 +03:00
Syntriax
ad444decbb perf: removed old position flipping on MonoGame 2026-01-28 11:16:47 +03:00
Syntriax
297e0eb790 fix: typos in Matrix4x4 methods 2026-01-28 11:14:31 +03:00
Syntriax
efa4da4398 fix: ScreenToWorldPosition & vice versa methods on MonoGameCamera2D fixed 2026-01-28 11:06:15 +03:00
Syntriax
e30280f1f8 fix: missing implicit conversion operators on Vectors 2026-01-28 11:02:07 +03:00
Syntriax
d4437edfbf feat: added Matrix4x4 x Vector4D multiplication 2026-01-28 10:22:36 +03:00
Syntriax
08f32f96e4 BREAKING CHANGE: 4x4 matrices are now column major 2026-01-27 23:45:50 +03:00
Syntriax
9294df8a19 feat: added support for multiple batches 2026-01-27 21:28:31 +03:00
Syntriax
50a0269798 feat: added matrix 4x4 transpose & orthographic view matrix methods 2026-01-27 20:48:39 +03:00
Syntriax
985f898327 refactor: moved drawable triangles into systems project for platform agnosticism 2026-01-27 13:04:04 +03:00
Syntriax
7c9973a5e7 refactor: ICamera interface added with view and projection matrices fields 2026-01-26 23:48:16 +03:00
Syntriax
af6dde84fd fix: universe entrance issues where entering behaviours adding more behaviours causing duplicate/missing calls 2026-01-26 23:23:49 +03:00
Syntriax
e2820670c6 fix: classname x filename inconsistency fixed 2026-01-26 22:01:36 +03:00
Syntriax
5ce5e4eb0b feat: added inverse & float scale methods to 4x4 matrices 2026-01-26 21:48:15 +03:00
Syntriax
ee58e60ef1 fix: universe entrance issues caused by wrong logic 2026-01-26 12:15:42 +03:00
23 changed files with 430 additions and 225 deletions
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17
Engine.Core/Abstract/ICamera.cs Normal file
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@@ -0,0 +1,17 @@
namespace Engine.Core;
/// <summary>
/// Represents a camera with view and projections matrices in the engine.
/// </summary>
public interface ICamera
{
/// <summary>
/// View <see cref="Matrix4x4"/> of the <see cref="ICamera"/>.
/// </summary>
Matrix4x4 ViewMatrix { get; }
/// <summary>
/// Projection <see cref="Matrix4x4"/> of the <see cref="ICamera"/>.
/// </summary>
Matrix4x4 ProjectionMatrix { get; }
}

2
Engine.Core/Abstract/ICamera2D.cs
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@@ -3,7 +3,7 @@ namespace Engine.Core;
/// <summary>
/// Represents a 2D camera in the engine.
/// </summary>
public interface ICamera2D : IBehaviour2D
public interface ICamera2D : ICamera, IBehaviour2D
{
/// <summary>
/// The zoom level of the camera.

2
Engine.Core/Abstract/ICamera3D.cs
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@@ -3,7 +3,7 @@ namespace Engine.Core;
/// <summary>
/// Represents a 3D camera in the engine.
/// </summary>
public interface ICamera3D : IBehaviour3D
public interface ICamera3D : ICamera, IBehaviour3D
{
/// <summary>
/// Event triggered when the near plane of the <see cref="ICamera3D"/> changes.

0
Engine.Core/BehaviourInternal.cs → Engine.Core/BehaviourIndependent.cs
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215
Engine.Core/Primitives/Matrix4x4.cs
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@@ -1,12 +1,11 @@
using System;
using System.Numerics;
namespace Engine.Core;
// TODO Comments
/// <summary>
/// Represents a 4D left handed space matrix.
/// Represents a 4D left handed space matrix in a Column Major convention.
/// </summary>
/// <remarks>
/// Initializes a new instance of the <see cref="Matrix4x4"/> struct with the specified values.
@@ -62,6 +61,16 @@ public readonly struct Matrix4x4(
0f, 0f, 0f, 1f
);
/// <summary>
/// Represents the inverted version of this <see cref="Matrix4x4"/>.
/// </summary>
public Matrix4x4 Inverse => Invert(this);
/// <summary>
/// Represents the transposed version of this <see cref="Matrix4x4"/>.
/// </summary>
public Matrix4x4 Transposed => Transpose(this);
public static Matrix4x4 operator *(Matrix4x4 a, Matrix4x4 b) => new(
a.M11 * b.M11 + a.M12 * b.M21 + a.M13 * b.M31 + a.M14 * b.M41,
a.M11 * b.M12 + a.M12 * b.M22 + a.M13 * b.M32 + a.M14 * b.M42,
@@ -84,6 +93,13 @@ public readonly struct Matrix4x4(
a.M41 * b.M14 + a.M42 * b.M24 + a.M43 * b.M34 + a.M44 * b.M44
);
public static Vector4D operator *(Matrix4x4 m, Vector4D v) => new(
m.M11 * v.X + m.M12 * v.Y + m.M13 * v.Z + m.M14 * v.W,
m.M21 * v.X + m.M22 * v.Y + m.M23 * v.Z + m.M24 * v.W,
m.M31 * v.X + m.M32 * v.Y + m.M33 * v.Z + m.M34 * v.W,
m.M41 * v.X + m.M42 * v.Y + m.M43 * v.Z + m.M44 * v.W
);
public static bool operator ==(Matrix4x4 left, Matrix4x4 right) =>
left.M11 == right.M11 && left.M12 == right.M12 && left.M13 == right.M13 && left.M14 == right.M14 &&
left.M21 == right.M21 && left.M22 == right.M22 && left.M23 == right.M23 && left.M24 == right.M24 &&
@@ -129,11 +145,98 @@ public readonly struct Matrix4x4(
m.M13 * m.M21 * m.M32 * m.M44 - m.M11 * m.M23 * m.M32 * m.M44 -
m.M12 * m.M21 * m.M33 * m.M44 + m.M11 * m.M22 * m.M33 * m.M44;
/// <summary>
/// Inverts the given <see cref="Matrix4x4"/>.
/// </summary>
/// <param name="m">The <see cref="Matrix4x4"/>.</param>
/// <returns>The inverted <see cref="Matrix4x4"/> of the given <see cref="Matrix4x4"/>.</returns>
public static Matrix4x4 Invert(Matrix4x4 m)
{
float m1 = m.M11, m2 = m.M12, m3 = m.M13, m4 = m.M14;
float m5 = m.M21, m6 = m.M22, m7 = m.M23, m8 = m.M24;
float m9 = m.M31, m10 = m.M32, m11 = m.M33, m12 = m.M34;
float m13 = m.M41, m14 = m.M42, m15 = m.M43, m16 = m.M44;
float num = m11 * m16 - m12 * m15;
float num2 = m10 * m16 - m12 * m14;
float num3 = m10 * m15 - m11 * m14;
float num4 = m9 * m16 - m12 * m13;
float num5 = m9 * m15 - m11 * m13;
float num6 = m9 * m14 - m10 * m13;
float num7 = m6 * num - m7 * num2 + m8 * num3;
float num8 = -(m5 * num - m7 * num4 + m8 * num5);
float num9 = m5 * num2 - m6 * num4 + m8 * num6;
float num10 = -(m5 * num3 - m6 * num5 + m7 * num6);
float invDet = 1f / (m1 * num7 + m2 * num8 + m3 * num9 + m4 * num10);
float r11 = num7 * invDet;
float r21 = num8 * invDet;
float r31 = num9 * invDet;
float r41 = num10 * invDet;
float r12 = (-(m2 * num - m3 * num2 + m4 * num3)) * invDet;
float r22 = (m1 * num - m3 * num4 + m4 * num5) * invDet;
float r32 = (-(m1 * num2 - m2 * num4 + m4 * num6)) * invDet;
float r42 = (m1 * num3 - m2 * num5 + m3 * num6) * invDet;
float num12 = m7 * m16 - m8 * m15;
float num13 = m6 * m16 - m8 * m14;
float num14 = m6 * m15 - m7 * m14;
float num15 = m5 * m16 - m8 * m13;
float num16 = m5 * m15 - m7 * m13;
float num17 = m5 * m14 - m6 * m13;
float r13 = (m2 * num12 - m3 * num13 + m4 * num14) * invDet;
float r23 = (-(m1 * num12 - m3 * num15 + m4 * num16)) * invDet;
float r33 = (m1 * num13 - m2 * num15 + m4 * num17) * invDet;
float r43 = (-(m1 * num14 - m2 * num16 + m3 * num17)) * invDet;
float num18 = m7 * m12 - m8 * m11;
float num19 = m6 * m12 - m8 * m10;
float num20 = m6 * m11 - m7 * m10;
float num21 = m5 * m12 - m8 * m9;
float num22 = m5 * m11 - m7 * m9;
float num23 = m5 * m10 - m6 * m9;
float r14 = (-(m2 * num18 - m3 * num19 + m4 * num20)) * invDet;
float r24 = (m1 * num18 - m3 * num21 + m4 * num22) * invDet;
float r34 = (-(m1 * num19 - m2 * num21 + m4 * num23)) * invDet;
float r44 = (m1 * num20 - m2 * num22 + m3 * num23) * invDet;
return new(
r11, r12, r13, r14,
r21, r22, r23, r24,
r31, r32, r33, r34,
r41, r42, r43, r44
);
}
/// <summary>
/// Transposes the given <see cref="Matrix4x4"/>.
/// </summary>
/// <param name="m">The <see cref="Matrix4x4"/>.</param>
/// <returns>The transposed <see cref="Matrix4x4"/> of the given <see cref="Matrix4x4"/>.</returns>
public static Matrix4x4 Transpose(Matrix4x4 m) => new(
m.M11, m.M21, m.M31, m.M41,
m.M12, m.M22, m.M32, m.M42,
m.M13, m.M23, m.M33, m.M43,
m.M14, m.M24, m.M34, m.M44
);
public static Matrix4x4 CreateTranslation(Vector3D position) => new(
1f, 0f, 0f, 0f,
0f, 1f, 0f, 0f,
0f, 0f, 1f, 0f,
position.X, position.Y, position.Z, 1
1f, 0f, 0f, position.X,
0f, 1f, 0f, position.Y,
0f, 0f, 1f, position.Z,
0f, 0f, 0f, 1f
);
public static Matrix4x4 CreateScale(float scale) => new(
scale, 0f, 0f, 0f,
0f, scale, 0f, 0f,
0f, 0f, scale, 0f,
0f, 0f, 0f, 1f
);
public static Matrix4x4 CreateScale(Vector3D scale) => new(
@@ -148,11 +251,11 @@ public readonly struct Matrix4x4(
float c = Math.Cos(radians);
float s = Math.Sin(radians);
return new Matrix4x4(
1f, 0f, 0f, 0f,
0f, c, s, 0f,
0f, -s, c, 0f,
0f, 0f, 0f, 1f
return new(
1f, 0f, 0f, 0f,
0f, c, -s, 0f,
0f, s, c, 0f,
0f, 0f, 0f, 1f
);
}
@@ -161,10 +264,10 @@ public readonly struct Matrix4x4(
float c = Math.Cos(radians);
float s = Math.Sin(radians);
return new Matrix4x4(
c, 0f, -s, 0f,
return new(
c, 0f, s, 0f,
0f, 1f, 0f, 0f,
s, 0f, c, 0f,
-s, 0f, c, 0f,
0f, 0f, 0f, 1f
);
}
@@ -174,9 +277,9 @@ public readonly struct Matrix4x4(
float c = Math.Cos(radians);
float s = Math.Sin(radians);
return new Matrix4x4(
c, s, 0f, 0f,
-s, c, 0f, 0f,
return new(
c, -s, 0f, 0f,
s, c, 0f, 0f,
0f, 0f, 1f, 0f,
0f, 0f, 0f, 1f
);
@@ -195,7 +298,7 @@ public readonly struct Matrix4x4(
Vector3D x = up.Cross(z).Normalized;
Vector3D y = z.Cross(x);
return new Matrix4x4(
return new(
x.X, y.X, z.X, 0f,
x.Y, y.Y, z.Y, 0f,
x.Z, y.Z, z.Z, 0f,
@@ -205,28 +308,53 @@ public readonly struct Matrix4x4(
public static Matrix4x4 CreateLookMatrix(Vector3D position, Vector3D target, Vector3D up)
{
Vector3D z = position.FromTo(target).Normalized;
Vector3D x = up.Cross(z).Normalized;
Vector3D y = z.Cross(x);
Vector3D f = (target - position).Normalized;
Vector3D s = f.Cross(up).Normalized;
Vector3D u = s.Cross(f);
return new Matrix4x4(
x.X, y.X, z.X, 0f,
x.Y, y.Y, z.Y, 0f,
x.Z, y.Z, z.Z, 0f,
-x.Dot(position), -y.Dot(position), -z.Dot(position), 1f
return new(
s.X, u.X, -f.X, 0f,
s.Y, u.Y, -f.Y, 0f,
s.Z, u.Z, -f.Z, 0f,
-s.Dot(position), -u.Dot(position), f.Dot(position), 1f
);
}
public static Matrix4x4 CreatePerspectiveFieldOfView(float fieldOfViewInRadians, float aspectRatio, float nearPlane, float farPlane)
public static Matrix4x4 CreateOrthographicView(float width, float height, float nearPlane = -1f, float farPlane = 1f)
{
float yScale = 1f / Math.Tan(fieldOfViewInRadians / 2f);
float xScale = yScale / aspectRatio;
float invDepth = 1f / (farPlane - nearPlane);
return new Matrix4x4(
return new(
2f / width, 0f, 0f, 0f,
0f, -2f / height, 0f, 0f,
0f, 0f, 1f * invDepth, 0f,
-1f, 1f, -nearPlane * invDepth, 1f
);
}
public static Matrix4x4 CreateOrthographicViewCentered(float width, float height, float nearPlane = -1f, float farPlane = 1f)
{
float invDepth = 1f / (farPlane - nearPlane);
return new(
2f / width, 0f, 0f, 0f,
0f, 2f / height, 0f, 0f,
0f, 0f, 1f * invDepth, 0f,
0f, 0f, -nearPlane * invDepth, 1f
);
}
public static Matrix4x4 CreatePerspectiveFieldOfView(float fovRadians, float aspectRatio, float nearPlane, float farPlane)
{
float yScale = 1f / Math.Tan(fovRadians / 2f);
float xScale = yScale / aspectRatio;
float zRange = farPlane - nearPlane;
return new(
xScale, 0f, 0f, 0f,
0f, yScale, 0f, 0f,
0f, 0f, farPlane / (farPlane - nearPlane), 1f,
0f, 0f, -nearPlane * farPlane / (farPlane - nearPlane), 0f
0f, 0f, -(farPlane + nearPlane) / zRange, -1f,
0f, 0f, -(2f * nearPlane * farPlane) / zRange, 0f
);
}
@@ -261,11 +389,20 @@ public static class Matrix4x4Extensions
/// <inheritdoc cref="Matrix4x4.Determinant(Matrix4x4)" />
public static float Determinant(this Matrix4x4 matrix) => Matrix4x4.Determinant(matrix);
/// <inheritdoc cref="Matrix4x4.Invert(Matrix4x4)" />
public static Matrix4x4 Invert(this Matrix4x4 matrix) => Matrix4x4.Invert(matrix);
/// <inheritdoc cref="Matrix4x4.Transpose(Matrix4x4)" />
public static Matrix4x4 Transpose(this Matrix4x4 matrix) => Matrix4x4.Transpose(matrix);
/// <inheritdoc cref="Matrix4x4.CreateTranslation(Vector3D)" />
public static Matrix4x4 ApplyTranslation(this Matrix4x4 matrix, Vector3D translation) => matrix * Matrix4x4.CreateTranslation(translation);
/// <inheritdoc cref="Matrix4x4.CreateScale(Vector3D)" />
public static Matrix4x4 ApplyScale(this Matrix4x4 matrix, Vector3 scale) => matrix * Matrix4x4.CreateScale(scale);
public static Matrix4x4 ApplyScale(this Matrix4x4 matrix, Vector3D scale) => matrix * Matrix4x4.CreateScale(scale);
/// <inheritdoc cref="Matrix4x4.CreateScale(float)" />
public static Matrix4x4 ApplyScale(this Matrix4x4 matrix, float scale) => matrix * Matrix4x4.CreateScale(scale);
/// <inheritdoc cref="Matrix4x4.CreateRotationZ(float)" />
public static Matrix4x4 ApplyRotationX(this Matrix4x4 matrix, float radians) => matrix * Matrix4x4.CreateRotationX(radians);
@@ -280,15 +417,23 @@ public static class Matrix4x4Extensions
public static Matrix4x4 ApplyRotation(this Matrix4x4 matrix, Quaternion quaternion) => matrix * Matrix4x4.CreateRotation(quaternion);
/// <inheritdoc cref="Matrix4x4.CreateLookMatrix( Vector3D, Vector3D)" />
public static Matrix4x4 ApplyLookRotationTo(this Matrix4x4 matrix, Vector3D forward, Vector3 up) => matrix * Matrix4x4.CreateLookMatrix(forward, up);
public static Matrix4x4 ApplyLookRotationTo(this Matrix4x4 matrix, Vector3D forward, Vector3D up) => matrix * Matrix4x4.CreateLookMatrix(forward, up);
/// <inheritdoc cref="Matrix4x4.CreateLookMatrix(Vector3D, Vector3D, Vector3D)" />
public static Matrix4x4 CreateLookMatrixTo(this Vector3D from, Vector3D to, Vector3 up) => Matrix4x4.CreateLookMatrix(from, to, up);
public static Matrix4x4 CreateLookMatrixTo(this Vector3D from, Vector3D to, Vector3D up) => Matrix4x4.CreateLookMatrix(from, to, up);
/// <inheritdoc cref="Matrix4x4.CreatePerspectiveFieldOfView(float, float, float, float)" />
public static Matrix4x4 ApplyPerspectiveFieldOfView(this Matrix4x4 matrix, float fieldOfViewInRadians, float aspectRatio, float nearPlane, float farPlane)
=> matrix * Matrix4x4.CreatePerspectiveFieldOfView(fieldOfViewInRadians, aspectRatio, nearPlane, farPlane);
/// <inheritdoc cref="Matrix4x4.CreateOrthographicView(float, float, float, float)" />
public static Matrix4x4 ApplyOrthographicView(this Matrix4x4 matrix, float width, float height, float nearPlane = -1f, float farPlane = 1f)
=> matrix * Matrix4x4.CreateOrthographicView(width, height, nearPlane, farPlane);
/// <inheritdoc cref="Matrix4x4.CreateOrthographicViewCentered(float, float, float, float)" />
public static Matrix4x4 ApplyOrthographicViewCentered(this Matrix4x4 matrix, float width, float height, float nearPlane = -1f, float farPlane = 1f)
=> matrix * Matrix4x4.CreateOrthographicViewCentered(width, height, nearPlane, farPlane);
/// <inheritdoc cref="Matrix4x4.ToRightHanded(Matrix4x4) />
public static Matrix4x4 ToRightHanded(this Matrix4x4 matrix) => Matrix4x4.ToRightHanded(matrix);
}

14
Engine.Core/Primitives/Vector2D.cs
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@@ -82,11 +82,19 @@ public readonly struct Vector2D(float x, float y) : IEquatable<Vector2D>
public static bool operator ==(Vector2D left, Vector2D right) => left.X == right.X && left.Y == right.Y;
public static bool operator !=(Vector2D left, Vector2D right) => left.X != right.X || left.Y != right.Y;
public static implicit operator System.Numerics.Vector2(Vector2D vector) => new(vector.X, vector.Y);
public static implicit operator Vector2D(System.Numerics.Vector2 vector) => new(vector.X, vector.Y);
public static implicit operator Vector2D(Vector2DInt vector) => new(vector.X, vector.Y);
public static implicit operator Vector2D(Vector3D vector) => new(vector.X, vector.Y);
public static implicit operator Vector2D(Vector3DInt vector) => new(vector.X, vector.Y);
public static implicit operator System.Numerics.Vector2(Vector2D vector) => new(vector.X, vector.Y);
public static implicit operator System.Numerics.Vector3(Vector2D vector) => new(vector.X, vector.Y, 0f);
public static implicit operator System.Numerics.Vector4(Vector2D vector) => new(vector.X, vector.Y, 0f, 0f);
public static implicit operator Vector2D(System.Numerics.Vector2 vector) => new(vector.X, vector.Y);
public static implicit operator Vector2D(System.Numerics.Vector3 vector) => new(vector.X, vector.Y);
public static implicit operator Vector2D(System.Numerics.Vector4 vector) => new(vector.X, vector.Y);
public static implicit operator Vector2D(Vector3D vector) => new(vector.X, vector.Y);
public static implicit operator Vector2D(Vector4D vector) => new(vector.X, vector.Y);
/// <summary>
/// Calculates the length of the <see cref="Vector2D"/>.

5
Engine.Core/Primitives/Vector2DInt.cs
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@@ -74,9 +74,12 @@ public readonly struct Vector2DInt(int x, int y) : IEquatable<Vector2DInt>
public static bool operator ==(Vector2DInt left, Vector2DInt right) => left.X == right.X && left.Y == right.Y;
public static bool operator !=(Vector2DInt left, Vector2DInt right) => left.X != right.X || left.Y != right.Y;
public static implicit operator Vector2DInt(Vector2D vector) => new(vector.X.RoundToInt(), vector.Y.RoundToInt());
public static implicit operator Vector2DInt(Vector3DInt vector) => new(vector.X, vector.Y);
public static implicit operator Vector2DInt(Vector2D vector) => new(vector.X.RoundToInt(), vector.Y.RoundToInt());
public static implicit operator Vector2DInt(Vector3D vector) => new(vector.X.RoundToInt(), vector.Y.RoundToInt());
public static implicit operator Vector2DInt(Vector4D vector) => new(vector.X.RoundToInt(), vector.Y.RoundToInt());
/// <summary>
/// Calculates the length of the <see cref="Vector2DInt"/>.
/// </summary>

14
Engine.Core/Primitives/Vector3D.cs
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@@ -92,11 +92,19 @@ public readonly struct Vector3D(float x, float y, float z) : IEquatable<Vector3D
public static bool operator ==(Vector3D left, Vector3D right) => left.X == right.X && left.Y == right.Y && left.Z == right.Z;
public static bool operator !=(Vector3D left, Vector3D right) => left.X != right.X || left.Y != right.Y || left.Z != right.Z;
public static implicit operator System.Numerics.Vector3(Vector3D vector) => new(vector.X, vector.Y, vector.Z);
public static implicit operator Vector3D(System.Numerics.Vector3 vector) => new(vector.X, vector.Y, vector.Z);
public static implicit operator Vector3D(Vector2DInt vector) => new(vector.X, vector.Y, 0f);
public static implicit operator Vector3D(Vector3DInt vector) => new(vector.X, vector.Y, vector.Z);
public static implicit operator Vector3D(Vector2D vector) => new(vector.X, vector.Y, 0f);
public static implicit operator System.Numerics.Vector2(Vector3D vector) => new(vector.X, vector.Y);
public static implicit operator System.Numerics.Vector3(Vector3D vector) => new(vector.X, vector.Y, vector.Z);
public static implicit operator System.Numerics.Vector4(Vector3D vector) => new(vector.X, vector.Y, vector.Z, 0f);
public static implicit operator Vector3D(System.Numerics.Vector2 vector) => new(vector.X, vector.Y, 0f);
public static implicit operator Vector3D(System.Numerics.Vector3 vector) => new(vector.X, vector.Y, vector.Z);
public static implicit operator Vector3D(System.Numerics.Vector4 vector) => new(vector.X, vector.Y, vector.Z);
public static implicit operator Vector3D(Vector2D vector) => new(vector.X, vector.Y, 0f);
public static implicit operator Vector3D(Vector4D vector) => new(vector.X, vector.Y, vector.Z);
/// <summary>
/// Calculates the length of the <see cref="Vector3D"/>.

5
Engine.Core/Primitives/Vector3DInt.cs
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@@ -84,9 +84,12 @@ public readonly struct Vector3DInt(int x, int y, int z) : IEquatable<Vector3DInt
public static bool operator ==(Vector3DInt left, Vector3DInt right) => left.X == right.X && left.Y == right.Y && left.Z == right.Z;
public static bool operator !=(Vector3DInt left, Vector3DInt right) => left.X != right.X || left.Y != right.Y || left.Z != right.Z;
public static implicit operator Vector3DInt(Vector3D vector) => new(vector.X.RoundToInt(), vector.Y.RoundToInt(), vector.Z.RoundToInt());
public static implicit operator Vector3DInt(Vector2DInt vector) => new(vector.X, vector.Y, 0);
public static implicit operator Vector3DInt(Vector2D vector) => new(vector.X.RoundToInt(), vector.Y.RoundToInt(), 0);
public static implicit operator Vector3DInt(Vector3D vector) => new(vector.X.RoundToInt(), vector.Y.RoundToInt(), vector.Z.RoundToInt());
public static implicit operator Vector3DInt(Vector4D vector) => new(vector.X.RoundToInt(), vector.Y.RoundToInt(), vector.Z.RoundToInt());
/// <summary>
/// Calculates the length of the <see cref="Vector3DInt"/>.
/// </summary>

11
Engine.Core/Primitives/Vector4D.cs
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@@ -90,9 +90,20 @@ public readonly struct Vector4D(float x, float y, float z, float w) : IEquatable
public static bool operator ==(Vector4D left, Vector4D right) => left.X == right.X && left.Y == right.Y && left.Z == right.Z && left.W == right.W;
public static bool operator !=(Vector4D left, Vector4D right) => left.X != right.X || left.Y != right.Y || left.Z != right.Z || left.W != right.W;
public static implicit operator Vector4D(Vector2DInt vector) => new(vector.X, vector.Y, 0f, 0f);
public static implicit operator Vector4D(Vector3DInt vector) => new(vector.X, vector.Y, vector.Z, 0f);
public static implicit operator System.Numerics.Vector2(Vector4D vector) => new(vector.X, vector.Y);
public static implicit operator System.Numerics.Vector3(Vector4D vector) => new(vector.X, vector.Y, vector.Z);
public static implicit operator System.Numerics.Vector4(Vector4D vector) => new(vector.X, vector.Y, vector.Z, vector.W);
public static implicit operator Vector4D(System.Numerics.Vector2 vector) => new(vector.X, vector.Y, 0f, 0f);
public static implicit operator Vector4D(System.Numerics.Vector3 vector) => new(vector.X, vector.Y, vector.Z, 0f);
public static implicit operator Vector4D(System.Numerics.Vector4 vector) => new(vector.X, vector.Y, vector.Z, vector.W);
public static implicit operator Vector4D(Vector2D vector) => new(vector.X, vector.Y, 0f, 0f);
public static implicit operator Vector4D(Vector3D vector) => new(vector.X, vector.Y, vector.Z, 0f);
/// <summary>
/// Calculates the length of the <see cref="Vector4D"/>.
/// </summary>

71
Engine.Core/Systems/UniverseEntranceManager.cs
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@@ -9,65 +9,56 @@ public class UniverseEntranceManager : Internal.BehaviourIndependent
private static System.Func<IBehaviour, int> GetPriority() => (b) => b.Priority;
private readonly ActiveBehaviourCollectorOrdered<int, IEnterUniverse> enterUniverses = new(GetPriority(), SortByAscendingPriority());
private readonly ActiveBehaviourCollectorOrdered<int, IExitUniverse> exitUniverses = new(GetPriority(), SortByAscendingPriority());
private readonly List<IEnterUniverse> toCallEnterUniverses = new(32);
private readonly List<IExitUniverse> toCallExitUniverses = new(32);
private bool isInitialCollectionDone = false;
private readonly FastListOrdered<int, IEnterUniverse> toCallEnterUniverses = new(GetPriority(), SortByAscendingPriority());
protected override void OnEnteredUniverse(IUniverse universe)
{
// FIXME: This causes an issue when the UniverseEntranceManager is already attached to a UniverseObject then registered into a Universe,
// the enter/exit universe collectors call OnUniverseObjectRegistered internally on Assign, but since the Universe calls the OnUniverseObjectRegistered
// event it tries to call OnUniverseObjectRegistered again on the same object, causing a duplicate entry error.
Debug.Assert.AssertTrue(BehaviourController.Count == 1, $"{nameof(UniverseEntranceManager)} must be in it's own {nameof(IUniverseObject)} with no other {nameof(IBehaviour)}s attached at the moment. Failing to do so might cause instantiation or serialization issues.");
exitUniverses.Assign(universe);
// FIXME: the isInitialCollectionDone is for the sole reason of some behaviours
// adding more behaviours during entrance calls and the internal workings of
// behaviour collector not being able to tell which behaviour was already called
// (because it just runs a for loop with the behaviour count, and priority ordering doesn't help as well)
// so it sometimes double processes or misses behaviours. A more elegant way of
// handling this would be nice but for now it works good enough.
//
// SIDE NOTE: This same issue has the potential to occur on exitUniverses as well, but I've yet to run
// into an instance of it actually happening so... I'm not gonna touch it until the edge case happens.
isInitialCollectionDone = false;
enterUniverses.Assign(universe);
isInitialCollectionDone = true;
foreach (IUniverseObject universeObject in universe)
OnUniverseObjectRegistered(universe, new(universeObject));
universe.OnUniverseObjectRegistered.AddListener(OnUniverseObjectRegistered);
universe.OnUniverseObjectUnRegistered.AddListener(OnUniverseObjectUnRegistered);
for (int i = toCallEnterUniverses.Count - 1; i >= 0; i--)
toCallEnterUniverses[i].EnterUniverse(universe);
toCallEnterUniverses.Clear();
}
protected override void OnExitedUniverse(IUniverse universe)
{
enterUniverses.Unassign();
foreach (IUniverseObject universeObject in universe)
OnUniverseObjectUnRegistered(universe, new(universeObject));
universe.OnUniverseObjectRegistered.RemoveListener(OnUniverseObjectRegistered);
universe.OnUniverseObjectUnRegistered.RemoveListener(OnUniverseObjectUnRegistered);
}
private void OnUniverseObjectUnRegistered(IUniverse sender, IUniverse.UniverseObjectUnRegisteredArguments args)
{
args.UniverseObjectUnregistered.BehaviourController.GetBehavioursInChildren(toCallExitUniverses);
for (int i = toCallExitUniverses.Count - 1; i >= 0; i--)
{
IExitUniverse exitUniverse = toCallExitUniverses[i];
toCallExitUniverses.RemoveAt(i);
exitUniverse.ExitUniverse(Universe);
}
}
private void OnUniverseObjectRegistered(IUniverse sender, IUniverse.UniverseObjectRegisteredArguments args)
{
for (int i = toCallEnterUniverses.Count - 1; i >= 0; i--)
{
IEnterUniverse enterUniverse = toCallEnterUniverses[i];
toCallEnterUniverses.RemoveAt(i);
enterUniverse.EnterUniverse(Universe);
}
exitUniverses.Unassign();
}
private void OnEnterUniverseCollected(IBehaviourCollector<IEnterUniverse> sender, IBehaviourCollector<IEnterUniverse>.BehaviourCollectedArguments args)
{
toCallEnterUniverses.Add(args.BehaviourCollected);
if (!isInitialCollectionDone)
{
toCallEnterUniverses.Add(args.BehaviourCollected);
return;
}
args.BehaviourCollected.EnterUniverse(Universe);
}
private void OnExitUniverseRemoved(IBehaviourCollector<IExitUniverse> sender, IBehaviourCollector<IExitUniverse>.BehaviourRemovedArguments args)
=> args.BehaviourRemoved.ExitUniverse(Universe);
public UniverseEntranceManager()
{
enterUniverses.OnCollected.AddListener(OnEnterUniverseCollected);
exitUniverses.OnRemoved.AddListener(OnExitUniverseRemoved);
}
}

12
Engine.Integration/Engine.Integration.MonoGame/Abstract/ITriangleBatch.cs
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@@ -1,12 +0,0 @@
using Microsoft.Xna.Framework;
using Engine.Core;
namespace Engine.Integration.MonoGame;
public interface ITriangleBatch
{
void Begin(Matrix? view = null, Matrix? projection = null);
void Draw(Triangle triangle, ColorRGBA colorRGBA);
void End();
}

73
Engine.Integration/Engine.Integration.MonoGame/Behaviours/MonoGameCamera2D.cs
View File

@@ -7,31 +7,39 @@ namespace Engine.Integration.MonoGame;
public class MonoGameCamera2D : Behaviour, ICamera2D, IFirstFrameUpdate, ILastFrameUpdate, IPreDraw
{
public Event<MonoGameCamera2D> OnMatrixTransformChanged { get; } = new();
public Event<MonoGameCamera2D> OnViewMatrixChanged { get; } = new();
public Event<MonoGameCamera2D> OnProjectionMatrixChanged { get; } = new();
public Event<MonoGameCamera2D> OnViewportChanged { get; } = new();
public Event<MonoGameCamera2D> OnZoomChanged { get; } = new();
public GraphicsDeviceManager Graphics { get; private set; } = null!;
public ITransform2D Transform { get; private set; } = null!;
public Matrix MatrixTransform
public Matrix4x4 ProjectionMatrix
{
get;
set
private set
{
if (field == value)
return;
field = value;
OnMatrixTransformChanged.Invoke(this);
OnProjectionMatrixChanged.Invoke(this);
}
} = Matrix.Identity;
} = Matrix4x4.Identity;
public Vector2D Position
public Matrix4x4 ViewMatrix
{
get => Transform.Position;
set => Transform.Position = value;
}
get;
private set
{
if (field == value)
return;
field = value;
OnViewMatrixChanged.Invoke(this);
}
} = Matrix4x4.Identity;
public Viewport Viewport
{
@@ -61,22 +69,37 @@ public class MonoGameCamera2D : Behaviour, ICamera2D, IFirstFrameUpdate, ILastFr
}
} = 1f;
public float Rotation
{
get => Transform.Rotation;
set => Transform.Rotation = value;
}
// TODO This causes delay since OnPreDraw calls assuming this is called in in Update
public Vector2D ScreenToWorldPosition(Vector2D screenPosition)
{
Vector2D worldPosition = Vector2.Transform(screenPosition.ToVector2(), Matrix.Invert(MatrixTransform)).ToVector2D();
return worldPosition.Scale(EngineConverterExtensions.screenScale);
float x = 2f * screenPosition.X / Viewport.Width - 1f;
float y = 1f - 2f * screenPosition.Y / Viewport.Height;
Vector4D normalizedCoordinates = new(x, y, 0f, 1f);
Matrix4x4 invertedViewProjectionMatrix = (ProjectionMatrix * ViewMatrix).Inverse;
Vector4D worldPosition = invertedViewProjectionMatrix * normalizedCoordinates;
if (worldPosition.W != 0f)
worldPosition /= worldPosition.W;
return new(worldPosition.X, worldPosition.Y);
}
public Vector2D WorldToScreenPosition(Vector2D worldPosition)
{
Vector2D screenPosition = Vector2.Transform(worldPosition.ToVector2(), MatrixTransform).ToVector2D();
return screenPosition.Scale(EngineConverterExtensions.screenScale);
Vector4D worldPosition4D = new(worldPosition.X, worldPosition.Y, 0f, 1f);
Matrix4x4 viewProjection = ProjectionMatrix * ViewMatrix;
Vector4D clip = viewProjection * worldPosition4D;
if (clip.W != 0f)
clip /= clip.W;
float screenX = (clip.X + 1f) * .5f * Viewport.Width;
float screenY = (1f - clip.Y) * .5f * Viewport.Height;
return new(screenX, screenY);
}
public void LastActiveFrame() => Transform = null!;
@@ -89,11 +112,11 @@ public class MonoGameCamera2D : Behaviour, ICamera2D, IFirstFrameUpdate, ILastFr
public void PreDraw()
{
MatrixTransform =
Matrix.CreateTranslation(new Vector3(-Position.X, Position.Y, 0f)) *
Matrix.CreateRotationZ(Rotation * Math.DegreeToRadian) *
Matrix.CreateScale(Transform.Scale.X.Max(Transform.Scale.Y)) *
Matrix.CreateScale(Zoom) *
Matrix.CreateTranslation(new Vector3(Viewport.Width * .5f, Viewport.Height * .5f, 0f));
ProjectionMatrix = Matrix4x4.CreateOrthographicViewCentered(Viewport.Width, Viewport.Height);
ViewMatrix = Matrix4x4.Identity
.ApplyScale(Transform.Scale.X.Max(Transform.Scale.Y))
.ApplyScale(Zoom)
.ApplyRotationZ(-Transform.Rotation * Math.DegreeToRadian)
.ApplyTranslation(new Vector3D(-Transform.Position.X, -Transform.Position.Y, 0f));
}
}

29
Engine.Integration/Engine.Integration.MonoGame/Behaviours/MonoGameCamera3D.cs
View File

@@ -21,7 +21,7 @@ public class MonoGameCamera3D : Behaviour, ICamera3D, IFirstFrameUpdate, ILastFr
public GraphicsDeviceManager Graphics { get; private set; } = null!;
public ITransform3D Transform { get; private set; } = null!;
public Matrix View
public Matrix4x4 ViewMatrix
{
get;
set
@@ -29,13 +29,13 @@ public class MonoGameCamera3D : Behaviour, ICamera3D, IFirstFrameUpdate, ILastFr
if (field == value)
return;
Matrix previousView = field;
Matrix4x4 previousView = field;
field = value;
OnViewChanged.Invoke(this, new(previousView));
}
} = Matrix.Identity;
} = Matrix4x4.Identity;
public Matrix Projection
public Matrix4x4 ProjectionMatrix
{
get;
set
@@ -43,11 +43,11 @@ public class MonoGameCamera3D : Behaviour, ICamera3D, IFirstFrameUpdate, ILastFr
if (field == value)
return;
Matrix previousProjection = field;
Matrix4x4 previousProjection = field;
field = value;
OnProjectionChanged.Invoke(this, new(previousProjection));
}
} = Matrix.Identity;
} = Matrix4x4.Identity;
public Viewport Viewport
{
@@ -111,14 +111,17 @@ public class MonoGameCamera3D : Behaviour, ICamera3D, IFirstFrameUpdate, ILastFr
Vector3 nearPoint = new(screenPosition.X, screenPosition.Y, 0f);
Vector3 farPoint = new(screenPosition.X, screenPosition.Y, 1f);
Vector3 worldNear = Viewport.Unproject(nearPoint, Projection, View, Matrix.Identity);
Vector3 worldFar = Viewport.Unproject(farPoint, Projection, View, Matrix.Identity);
Matrix projection = ProjectionMatrix.ToXnaMatrix();
Matrix view = ViewMatrix.ToXnaMatrix();
Vector3 worldNear = Viewport.Unproject(nearPoint, projection, view, Matrix.Identity);
Vector3 worldFar = Viewport.Unproject(farPoint, projection, view, Matrix.Identity);
Vector3 direction = Vector3.Normalize(worldFar - worldNear);
return new(worldNear.ToVector3D(), direction.ToVector3D());
}
public Vector2D WorldToScreenPosition(Vector3D worldPosition) => Viewport.Project(worldPosition.ToVector3(), Projection, View, Matrix.Identity).ToVector3D();
public Vector2D WorldToScreenPosition(Vector3D worldPosition) => Viewport.Project(worldPosition.ToVector3(), ProjectionMatrix.ToXnaMatrix(), ViewMatrix.ToXnaMatrix(), Matrix.Identity).ToVector3D();
public void LastActiveFrame() => Transform.OnTransformUpdated.RemoveListener(SetDirtyOnTransformUpdate);
public void FirstActiveFrame()
@@ -150,7 +153,7 @@ public class MonoGameCamera3D : Behaviour, ICamera3D, IFirstFrameUpdate, ILastFr
Vector3 right = Vector3.Normalize(Transform.Right.ToVector3());
Vector3 position = Transform.Position.ToVector3();
View = new Matrix(
ViewMatrix = new Matrix4x4(
right.X, up.X, forward.X, 0,
right.Y, up.Y, forward.Y, 0,
right.Z, up.Z, forward.Z, 0,
@@ -166,7 +169,7 @@ public class MonoGameCamera3D : Behaviour, ICamera3D, IFirstFrameUpdate, ILastFr
float yScale = 1f / (float)Math.Tan(fieldOfView / 2f);
float xScale = yScale / Viewport.AspectRatio;
Projection = new Matrix(
ProjectionMatrix = new Matrix4x4(
xScale, 0, 0, 0,
0, yScale, 0, 0,
0, 0, FarPlane / (FarPlane - NearPlane), 1,
@@ -174,7 +177,7 @@ public class MonoGameCamera3D : Behaviour, ICamera3D, IFirstFrameUpdate, ILastFr
);
}
public readonly record struct ViewChangedArguments(Matrix PreviousView);
public readonly record struct ProjectionChangedArguments(Matrix PreviousProjection);
public readonly record struct ViewChangedArguments(Matrix4x4 PreviousView);
public readonly record struct ProjectionChangedArguments(Matrix4x4 PreviousProjection);
public readonly record struct ViewportChangedArguments(Viewport PreviousViewport);
}

26
Engine.Integration/Engine.Integration.MonoGame/Behaviours/SpriteBatchWrapper.cs
View File

@@ -15,49 +15,49 @@ public class SpriteBatchWrapper(GraphicsDevice graphicsDevice) : ISpriteBatch
=> spriteBatch.Begin(sortMode, blendState, samplerState, depthStencilState, rasterizerState, effect, transformMatrix);
public void Draw(Texture2D texture, Vector2D position, AABB2D? sourceAABB, Color color, float rotation, Vector2D origin, Vector2D scale, SpriteEffects effects, float layerDepth)
=> spriteBatch.Draw(texture, position.ToDisplayVector2(), sourceAABB?.ToRectangle(), color, rotation, origin.ToDisplayVector2(), scale.ToDisplayVector2(), effects, layerDepth);
=> spriteBatch.Draw(texture, position.ToVector2(), sourceAABB?.ToRectangle(), color, rotation, origin.ToVector2(), scale.ToVector2(), effects, layerDepth);
public void Draw(Texture2D texture, Vector2D position, AABB2D? sourceAABB, Color color, float rotation, Vector2D origin, float scale, SpriteEffects effects, float layerDepth)
=> spriteBatch.Draw(texture, position.ToDisplayVector2(), sourceAABB?.ToRectangle(), color, rotation, origin.ToDisplayVector2(), scale, effects, layerDepth);
=> spriteBatch.Draw(texture, position.ToVector2(), sourceAABB?.ToRectangle(), color, rotation, origin.ToVector2(), scale, effects, layerDepth);
public void Draw(Texture2D texture, AABB2D destinationAABB, AABB2D? sourceAABB, Color color, float rotation, Vector2D origin, SpriteEffects effects, float layerDepth)
=> spriteBatch.Draw(texture, destinationAABB.ToRectangle(), sourceAABB?.ToRectangle(), color, rotation, origin.ToDisplayVector2(), effects, layerDepth);
=> spriteBatch.Draw(texture, destinationAABB.ToRectangle(), sourceAABB?.ToRectangle(), color, rotation, origin.ToVector2(), effects, layerDepth);
public void Draw(Texture2D texture, Vector2D position, AABB2D? sourceAABB, Color color)
=> spriteBatch.Draw(texture, position.ToDisplayVector2(), sourceAABB?.ToRectangle(), color);
=> spriteBatch.Draw(texture, position.ToVector2(), sourceAABB?.ToRectangle(), color);
public void Draw(Texture2D texture, AABB2D destinationAABB, AABB2D? sourceAABB, Color color)
=> spriteBatch.Draw(texture, destinationAABB.ToRectangle(), sourceAABB?.ToRectangle(), color);
public void Draw(Texture2D texture, Vector2D position, Color color)
=> spriteBatch.Draw(texture, position.ToDisplayVector2(), color);
=> spriteBatch.Draw(texture, position.ToVector2(), color);
public void Draw(Texture2D texture, AABB2D destinationAABB, Color color)
=> spriteBatch.Draw(texture, destinationAABB.ToRectangle(), color);
public void DrawString(SpriteFont spriteFont, string text, Vector2D position, Color color)
=> spriteBatch.DrawString(spriteFont, text, position.ToDisplayVector2(), color);
=> spriteBatch.DrawString(spriteFont, text, position.ToVector2(), color);
public void DrawString(SpriteFont spriteFont, string text, Vector2D position, Color color, float rotation, Vector2D origin, float scale, SpriteEffects effects, float layerDepth)
=> spriteBatch.DrawString(spriteFont, text, position.ToDisplayVector2(), color, rotation, origin.ToDisplayVector2(), scale, effects, layerDepth);
=> spriteBatch.DrawString(spriteFont, text, position.ToVector2(), color, rotation, origin.ToVector2(), scale, effects, layerDepth);
public void DrawString(SpriteFont spriteFont, string text, Vector2D position, Color color, float rotation, Vector2D origin, Vector2D scale, SpriteEffects effects, float layerDepth)
=> spriteBatch.DrawString(spriteFont, text, position.ToDisplayVector2(), color, rotation, origin.ToDisplayVector2(), scale.ToDisplayVector2(), effects, layerDepth);
=> spriteBatch.DrawString(spriteFont, text, position.ToVector2(), color, rotation, origin.ToVector2(), scale.ToVector2(), effects, layerDepth);
public void DrawString(SpriteFont spriteFont, string text, Vector2D position, Color color, float rotation, Vector2D origin, Vector2D scale, SpriteEffects effects, float layerDepth, bool rtl)
=> spriteBatch.DrawString(spriteFont, text, position.ToDisplayVector2(), color, rotation, origin.ToDisplayVector2(), scale.ToDisplayVector2(), effects, layerDepth, rtl);
=> spriteBatch.DrawString(spriteFont, text, position.ToVector2(), color, rotation, origin.ToVector2(), scale.ToVector2(), effects, layerDepth, rtl);
public void DrawString(SpriteFont spriteFont, StringBuilder text, Vector2D position, Color color)
=> spriteBatch.DrawString(spriteFont, text, position.ToDisplayVector2(), color);
=> spriteBatch.DrawString(spriteFont, text, position.ToVector2(), color);
public void DrawString(SpriteFont spriteFont, StringBuilder text, Vector2D position, Color color, float rotation, Vector2D origin, float scale, SpriteEffects effects, float layerDepth)
=> spriteBatch.DrawString(spriteFont, text, position.ToDisplayVector2(), color, rotation, origin.ToDisplayVector2(), scale, effects, layerDepth);
=> spriteBatch.DrawString(spriteFont, text, position.ToVector2(), color, rotation, origin.ToVector2(), scale, effects, layerDepth);
public void DrawString(SpriteFont spriteFont, StringBuilder text, Vector2D position, Color color, float rotation, Vector2D origin, Vector2D scale, SpriteEffects effects, float layerDepth)
=> spriteBatch.DrawString(spriteFont, text, position.ToDisplayVector2(), color, rotation, origin.ToDisplayVector2(), scale.ToDisplayVector2(), effects, layerDepth);
=> spriteBatch.DrawString(spriteFont, text, position.ToVector2(), color, rotation, origin.ToVector2(), scale.ToVector2(), effects, layerDepth);
public void DrawString(SpriteFont spriteFont, StringBuilder text, Vector2D position, Color color, float rotation, Vector2D origin, Vector2D scale, SpriteEffects effects, float layerDepth, bool rtl)
=> spriteBatch.DrawString(spriteFont, text, position.ToDisplayVector2(), color, rotation, origin.ToDisplayVector2(), scale.ToDisplayVector2(), effects, layerDepth, rtl);
=> spriteBatch.DrawString(spriteFont, text, position.ToVector2(), color, rotation, origin.ToVector2(), scale.ToVector2(), effects, layerDepth, rtl);
public void End()
=> spriteBatch.End();

2
Engine.Integration/Engine.Integration.MonoGame/Behaviours/SpriteBatcher.cs
View File

@@ -26,7 +26,7 @@ public class SpriteBatcher : Behaviour, IFirstFrameUpdate, IDraw
public void Draw()
{
spriteBatch.Begin(transformMatrix: camera2D.MatrixTransform);
spriteBatch.Begin(transformMatrix: camera2D.ViewMatrix.ToXnaMatrix());
for (int i = 0; i < drawableSprites.Count; i++)
drawableSprites[i].Draw(spriteBatch);
spriteBatch.End();

40
Engine.Integration/Engine.Integration.MonoGame/Behaviours/TriangleBatcher.cs
View File

@@ -1,40 +0,0 @@
using System.Collections.Generic;
using Microsoft.Xna.Framework;
using Engine.Core;
namespace Engine.Integration.MonoGame;
public class TriangleBatcher : Behaviour, ITriangleBatch, IFirstFrameUpdate, IDraw
{
private static Comparer<int> SortByAscendingPriority() => Comparer<int>.Create((x, y) => x.CompareTo(y));
private static System.Func<IBehaviour, int> GetPriority() => (b) => b.Priority;
private TriangleBatch triangleBatch = null!;
private MonoGameCamera2D camera2D = null!;
private readonly ActiveBehaviourCollectorOrdered<int, IDrawableTriangle> drawableShapes = new(GetPriority(), SortByAscendingPriority());
public void FirstActiveFrame()
{
MonoGameWindowContainer windowContainer = BehaviourController.UniverseObject.Universe.FindRequiredBehaviour<MonoGameWindowContainer>();
camera2D = BehaviourController.UniverseObject.Universe.FindRequiredBehaviour<MonoGameCamera2D>();
triangleBatch = new(windowContainer.Window.GraphicsDevice);
drawableShapes.Unassign();
drawableShapes.Assign(BehaviourController.UniverseObject.Universe);
}
public void Draw()
{
triangleBatch.Begin(camera2D.MatrixTransform);
for (int i = 0; i < drawableShapes.Count; i++)
drawableShapes[i].Draw(triangleBatch);
triangleBatch.End();
}
public void Begin(Matrix? view = null, Matrix? projection = null) => triangleBatch.Begin(view, projection);
public void Draw(Triangle triangle, ColorRGBA colorRGBA) => triangleBatch.Draw(triangle, colorRGBA);
public void End() => triangleBatch.End();
}

20
Engine.Integration/Engine.Integration.MonoGame/EngineConverter.cs
View File

@@ -9,8 +9,6 @@ namespace Engine.Integration.MonoGame;
public static class EngineConverterExtensions
{
public readonly static Vector2D screenScale = Vector2D.Down + Vector2D.Right;
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static UniverseTime ToEngineTime(this GameTime gameTime) => new(gameTime.TotalGameTime, gameTime.ElapsedGameTime);
@@ -49,15 +47,17 @@ public static class EngineConverterExtensions
m.M41, m.M42, m.M43, m.M44
);
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static Matrix4x4 FromXnaMatrix(this Matrix m) => new(
m.M11, m.M12, m.M13, m.M14,
m.M21, m.M22, m.M23, m.M24,
m.M31, m.M32, m.M33, m.M34,
m.M41, m.M42, m.M43, m.M44
);
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static Microsoft.Xna.Framework.Quaternion ToXnaQuaternion(this Core.Quaternion quaternion) => new(quaternion.X, quaternion.Y, quaternion.Z, quaternion.W);
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static Vector2 ToDisplayVector2(this Vector2D vector) => vector.Scale(screenScale).ToVector2();
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static Vector2D ApplyDisplayScale(this Vector2D vector) => vector.Scale(screenScale);
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static Rectangle ToDisplayRectangle(this Rectangle rectangle, DisplayMode displayMode) => new()
{
@@ -70,8 +70,8 @@ public static class EngineConverterExtensions
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static Rectangle ToRectangle(this AABB2D aabb) => new()
{
X = (int)(aabb.LowerBoundary.X * screenScale.X),
Y = (int)(aabb.LowerBoundary.Y * screenScale.Y),
X = (int)aabb.LowerBoundary.X,
Y = (int)aabb.LowerBoundary.Y,
Width = (int)(aabb.UpperBoundary.X - aabb.LowerBoundary.X),
Height = (int)(aabb.UpperBoundary.Y - aabb.LowerBoundary.Y)
};

37
Engine.Integration/Engine.Integration.MonoGame/TriangleBatch.cs → Engine.Integration/Engine.Integration.MonoGame/MonoGameTriangleBatch.cs
View File

@@ -2,24 +2,29 @@ using Microsoft.Xna.Framework;
using Microsoft.Xna.Framework.Graphics;
using Engine.Core;
using Engine.Systems.Graphics;
namespace Engine.Integration.MonoGame;
public class TriangleBatch : ITriangleBatch
public class MonoGameTriangleBatch : Behaviour, ITriangleBatch, IFirstFrameUpdate
{
private readonly GraphicsDevice graphicsDevice;
private readonly VertexBuffer vertexBuffer = default!;
private GraphicsDevice graphicsDevice = null!;
private VertexBuffer vertexBuffer = default!;
private readonly VertexPositionColor[] vertices = new VertexPositionColor[1024];
private int verticesIndex = 0;
private Matrix view = Matrix.Identity;
private Matrix projection = Matrix.Identity;
private readonly BasicEffect basicEffect = null!;
private BasicEffect basicEffect = null!;
private readonly RasterizerState rasterizerState = new() { CullMode = CullMode.None };
public TriangleBatch(GraphicsDevice graphicsDevice)
private ICamera camera = null!;
public void FirstActiveFrame()
{
camera = Universe.FindRequiredBehaviour<ICamera>();
GraphicsDevice graphicsDevice = Universe.FindRequiredBehaviour<MonoGameWindowContainer>().Window.GraphicsDevice;
this.graphicsDevice = graphicsDevice;
basicEffect = new(graphicsDevice);
basicEffect.VertexColorEnabled = true;
@@ -31,9 +36,9 @@ public class TriangleBatch : ITriangleBatch
if (verticesIndex + 3 >= vertices.Length)
Flush();
Vector2 A = triangle.A.ToDisplayVector2();
Vector2 B = triangle.B.ToDisplayVector2();
Vector2 C = triangle.C.ToDisplayVector2();
Vector2 A = triangle.A.ToVector2();
Vector2 B = triangle.B.ToVector2();
Vector2 C = triangle.C.ToVector2();
Color color = colorRGBA.ToColor();
vertices[verticesIndex++] = new(new(A.X, A.Y, 0f), color);
@@ -41,20 +46,12 @@ public class TriangleBatch : ITriangleBatch
vertices[verticesIndex++] = new(new(C.X, C.Y, 0f), color);
}
public void Begin(Matrix? view = null, Matrix? projection = null)
public void Begin(Matrix4x4? view = null, Matrix4x4? projection = null)
{
if (view != null)
this.view = view.Value;
else
this.view = Matrix.Identity;
Viewport viewport = graphicsDevice.Viewport;
if (projection != null)
this.projection = projection.Value;
else
{
Viewport viewport = graphicsDevice.Viewport;
this.projection = Matrix.CreateOrthographicOffCenter(viewport.X, viewport.Width, viewport.Height, viewport.Y, 0, 1);
}
this.view = (view ?? camera.ViewMatrix).Transposed.ToXnaMatrix();
this.projection = (projection ?? camera.ProjectionMatrix).Transposed.ToXnaMatrix();
}
public void End() => Flush();

10
Engine.Integration/Engine.Integration.MonoGame/Behaviours/DrawableShape.cs → Engine.Systems/Graphics/DrawableShape2D.cs
View File

@@ -2,9 +2,9 @@ using System.Collections.Generic;
using Engine.Core;
namespace Engine.Integration.MonoGame;
namespace Engine.Systems.Graphics;
public class DrawableShape : Behaviour2D, IDrawableTriangle, IPreDraw
public class DrawableShape2D : Behaviour2D, IDrawableTriangle, IPreDraw
{
private readonly Shape2D shape = new([]);
private readonly List<Triangle> worldTriangles = [];
@@ -23,7 +23,7 @@ public class DrawableShape : Behaviour2D, IDrawableTriangle, IPreDraw
protected void UpdateWorldShape() => shape.Transform(Transform, worldShape);
public DrawableShape() => shape = Shape2D.Triangle;
public DrawableShape(Shape2D shape) => this.shape = shape;
public DrawableShape(Shape2D shape, ColorRGB color) { this.shape = shape; this.color = color; }
public DrawableShape2D() => shape = Shape2D.Triangle;
public DrawableShape2D(Shape2D shape) => this.shape = shape;
public DrawableShape2D(Shape2D shape, ColorRGB color) { this.shape = shape; this.color = color; }
}

2
Engine.Integration/Engine.Integration.MonoGame/Abstract/IDrawableTriangle.cs → Engine.Systems/Graphics/IDrawableTriangle.cs
View File

@@ -1,6 +1,6 @@
using Engine.Core;
namespace Engine.Integration.MonoGame;
namespace Engine.Systems.Graphics;
public interface IDrawableTriangle : IBehaviour
{

10
Engine.Systems/Graphics/ITriangleBatch.cs Normal file
View File

@@ -0,0 +1,10 @@
using Engine.Core;
namespace Engine.Systems.Graphics;
public interface ITriangleBatch
{
void Begin(Matrix4x4? view = null, Matrix4x4? projection = null);
void Draw(Triangle triangle, ColorRGBA colorRGBA);
void End();
}

38
Engine.Systems/Graphics/TriangleBatcher.cs Normal file
View File

@@ -0,0 +1,38 @@
using System.Collections.Generic;
using Engine.Core;
namespace Engine.Systems.Graphics;
public class TriangleBatcher : Behaviour, IFirstFrameUpdate, ILastFrameUpdate, IDraw
{
private static Comparer<int> SortByAscendingPriority() => Comparer<int>.Create((x, y) => x.CompareTo(y));
private static System.Func<IBehaviour, int> GetPriority() => (b) => b.Priority;
private readonly BehaviourCollector<ITriangleBatch> triangleBatches = new();
private readonly ActiveBehaviourCollectorOrdered<int, IDrawableTriangle> drawableShapes = new(GetPriority(), SortByAscendingPriority());
public void FirstActiveFrame()
{
drawableShapes.Assign(Universe);
triangleBatches.Assign(Universe);
}
public void Draw()
{
for (int i = 0; i < triangleBatches.Count; i++)
{
ITriangleBatch triangleBatch = triangleBatches[i];
triangleBatch.Begin();
for (int j = 0; j < drawableShapes.Count; j++)
drawableShapes[j].Draw(triangleBatch);
triangleBatch.End();
}
}
public void LastActiveFrame()
{
triangleBatches.Unassign();
drawableShapes.Unassign();
}
}