Example #1
0
        /// <summary>
        /// Returns the correct matrix to convert between the Rgb and CieXyz color space.
        /// </summary>
        /// <param name="workingSpace">The Rgb working space.</param>
        /// <returns>The <see cref="Matrix4x4"/> based on the chromaticity and working space.</returns>
        public static Matrix4x4 GetRgbToCieXyzMatrix(RgbWorkingSpaceBase workingSpace)
        {
            DebugGuard.NotNull(workingSpace, nameof(workingSpace));
            RgbPrimariesChromaticityCoordinates chromaticity = workingSpace.ChromaticityCoordinates;

            float xr = chromaticity.R.X;
            float xg = chromaticity.G.X;
            float xb = chromaticity.B.X;
            float yr = chromaticity.R.Y;
            float yg = chromaticity.G.Y;
            float yb = chromaticity.B.Y;

            float       mXr = xr / yr;
            const float Yr  = 1;
            float       mZr = (1 - xr - yr) / yr;

            float       mXg = xg / yg;
            const float Yg  = 1;
            float       mZg = (1 - xg - yg) / yg;

            float       mXb = xb / yb;
            const float Yb  = 1;
            float       mZb = (1 - xb - yb) / yb;

            var xyzMatrix = new Matrix4x4
            {
                M11 = mXr,
                M21 = mXg,
                M31 = mXb,
                M12 = Yr,
                M22 = Yg,
                M32 = Yb,
                M13 = mZr,
                M23 = mZg,
                M33 = mZb,
                M44 = 1F
            };

            Matrix4x4.Invert(xyzMatrix, out Matrix4x4 inverseXyzMatrix);

            var vector = Vector3.Transform(workingSpace.WhitePoint.ToVector3(), inverseXyzMatrix);

            // Use transposed Rows/Columns
            // TODO: Is there a built in method for this multiplication?
            return(new Matrix4x4
            {
                M11 = vector.X * mXr,
                M21 = vector.Y * mXg,
                M31 = vector.Z * mXb,
                M12 = vector.X * Yr,
                M22 = vector.Y * Yg,
                M32 = vector.Z * Yb,
                M13 = vector.X * mZr,
                M23 = vector.Y * mZg,
                M33 = vector.Z * mZb,
                M44 = 1F
            });
        }
Example #2
0
        /// <summary>
        /// Initializes a new instance of the <see cref="CieXyzToLinearRgbConverter"/> class.
        /// </summary>
        /// <param name="workingSpace">The target working space.</param>
        public CieXyzToLinearRgbConverter(RgbWorkingSpaceBase workingSpace)
        {
            this.TargetWorkingSpace = workingSpace;

            // Gets the inverted Rgb -> Xyz matrix
            Matrix4x4.Invert(GetRgbToCieXyzMatrix(workingSpace), out Matrix4x4 inverted);

            this.conversionMatrix = inverted;
        }
 /// <summary>
 /// Initializes a new instance of the <see cref="LinearRgbToCieXyzConverter"/> class.
 /// </summary>
 /// <param name="workingSpace">The target working space.</param>
 public LinearRgbToCieXyzConverter(RgbWorkingSpaceBase workingSpace)
 {
     this.SourceWorkingSpace = workingSpace;
     this.conversionMatrix   = GetRgbToCieXyzMatrix(workingSpace);
 }
Example #4
0
 /// <summary>
 /// Initializes a new instance of the <see cref="CieXyzToLinearRgbConverter"/> class.
 /// </summary>
 /// <param name="workingSpace">The target working space.</param>
 public CieXyzToLinearRgbConverter(RgbWorkingSpaceBase workingSpace)
 {
     this.TargetWorkingSpace = workingSpace;
     this.conversionMatrix   = GetRgbToCieXyzMatrix(workingSpace);
 }