/// <summary>
/// Constructs this matrix from a mat2x3. Non-overwritten fields are from an Identity matrix.
/// </summary>
public mat2(mat2x3 m)
{
this.m00 = m.m00;
this.m01 = m.m01;
this.m10 = m.m10;
this.m11 = m.m11;
}
/// <summary>
/// Constructs this matrix from a mat2x3. Non-overwritten fields are from an Identity matrix.
/// </summary>
public mat2x3(mat2x3 m)
{
this.m00 = m.m00;
this.m01 = m.m01;
this.m02 = m.m02;
this.m10 = m.m10;
this.m11 = m.m11;
this.m12 = m.m12;
}
/// <summary>
/// Constructs this matrix from a mat2x3. Non-overwritten fields are from an Identity matrix.
/// </summary>
public mat3x2(mat2x3 m)
{
this.m00 = m.m00;
this.m01 = m.m01;
this.m10 = m.m10;
this.m11 = m.m11;
this.m20 = 0f;
this.m21 = 0f;
}
/// <summary>
/// Constructs this matrix from a mat2x3. Non-overwritten fields are from an Identity matrix.
/// </summary>
public mat2x4(mat2x3 m)
{
this.m00 = m.m00;
this.m01 = m.m01;
this.m02 = m.m02;
this.m03 = 0f;
this.m10 = m.m10;
this.m11 = m.m11;
this.m12 = m.m12;
this.m13 = 0f;
}
/// <summary>
/// Constructs this matrix from a mat2x3. Non-overwritten fields are from an Identity matrix.
/// </summary>
public mat3(mat2x3 m)
{
this.m00 = m.m00;
this.m01 = m.m01;
this.m02 = m.m02;
this.m10 = m.m10;
this.m11 = m.m11;
this.m12 = m.m12;
this.m20 = 0f;
this.m21 = 0f;
this.m22 = 1f;
}
/// <summary> /// Executes a component-wise - (subtract). /// </summary> public static mat2x3 CompSub(mat2x3 A, mat2x3 B) => new mat2x3(A.m00 - B.m00, A.m01 - B.m01, A.m02 - B.m02, A.m10 - B.m10, A.m11 - B.m11, A.m12 - B.m12);
/// <summary> /// Executes a component-wise + (add). /// </summary> public static mat2x3 CompAdd(mat2x3 A, mat2x3 B) => new mat2x3(A.m00 + B.m00, A.m01 + B.m01, A.m02 + B.m02, A.m10 + B.m10, A.m11 + B.m11, A.m12 + B.m12);
/// <summary> /// Executes a component-wise / (divide). /// </summary> public static mat2x3 CompDiv(mat2x3 A, mat2x3 B) => new mat2x3(A.m00 / B.m00, A.m01 / B.m01, A.m02 / B.m02, A.m10 / B.m10, A.m11 / B.m11, A.m12 / B.m12);
/// <summary> /// Executes a component-wise * (multiply). /// </summary> public static mat2x3 CompMul(mat2x3 A, mat2x3 B) => new mat2x3(A.m00 * B.m00, A.m01 * B.m01, A.m02 * B.m02, A.m10 * B.m10, A.m11 * B.m11, A.m12 * B.m12);
/// <summary> /// Returns true iff this equals rhs component-wise. /// </summary> public bool Equals(mat2x3 rhs) => (((m00.Equals(rhs.m00) && m01.Equals(rhs.m01)) && m02.Equals(rhs.m02)) && ((m10.Equals(rhs.m10) && m11.Equals(rhs.m11)) && m12.Equals(rhs.m12)));
/// <summary> /// Returns an enumerator that iterates through all fields. /// </summary> public static IEnumerator<float> GetEnumerator(mat2x3 m) => m.GetEnumerator();
/// <summary> /// Creates a 1D array with all values (internal order) /// </summary> public static float[] Values1D(mat2x3 m) => m.Values1D;
/// <summary> /// Creates a 2D array with all values (address: Values[x, y]) /// </summary> public static float[,] Values(mat2x3 m) => m.Values;
