C# (CSharp) Squish RangeFit Examples

Example #1

        static void CompressMasked(byte[] rgba, int mask, ref byte[] block, int offset, SquishFlags flags, float?metric)
        {
            // fix any bad flags
            flags = FixFlags(flags);

            // get the block locations
            int colourBlock = offset;
            int alphaBlock  = offset;

            if ((flags & (SquishFlags.kDxt3 | SquishFlags.kDxt5)) != 0)
            {
                colourBlock += 8;
            }

            // create the minimal point set
            ColourSet colours = new ColourSet(rgba, mask, flags);

            // check the compression type and compress colour
            if (colours.Count == 1)
            {
                // always do a single colour fit
                SingleColourFit fit = new SingleColourFit(colours, flags);
                fit.Compress(ref block, colourBlock);
            }
            else if ((flags & SquishFlags.kColourRangeFit) != 0 || colours.Count == 0)
            {
                // do a range fit
                RangeFit fit = new RangeFit(colours, flags, metric);
                fit.Compress(ref block, colourBlock);
            }
            else
            {
                // default to a cluster fit (could be iterative or not)
                ClusterFit fit = new ClusterFit(colours, flags, metric);
                fit.Compress(ref block, colourBlock);
            }

            // compress alpha separately if necessary
            if ((flags & SquishFlags.kDxt3) != 0)
            {
                CompressAlphaDxt3(rgba, mask, ref block, alphaBlock);
            }
            else if ((flags & SquishFlags.kDxt5) != 0)
            {
                CompressAlphaDxt5(rgba, mask, ref block, alphaBlock);
            }
        }

Example #2

File: Squish.cs Project: Mazooma-Interactive-Games/LibSquishNet

        static void CompressMasked(byte[] rgba, int mask, ref byte[] block, int offset, SquishFlags flags, float? metric)
        {
            // fix any bad flags
            flags = FixFlags(flags);

            // get the block locations
            int colourBlock = offset;
            int alphaBlock = offset;
            if ((flags & (SquishFlags.kDxt3 | SquishFlags.kDxt5)) != 0) { colourBlock += 8; }

            // create the minimal point set
            ColourSet colours = new ColourSet(rgba, mask, flags);

            // check the compression type and compress colour
            if (colours.Count == 1)
            {
                // always do a single colour fit
                SingleColourFit fit = new SingleColourFit(colours, flags);
                fit.Compress(ref block, colourBlock);
            }
            else if ((flags & SquishFlags.kColourRangeFit) != 0 || colours.Count == 0)
            {
                // do a range fit
                RangeFit fit = new RangeFit(colours, flags, metric);
                fit.Compress(ref block, colourBlock);
            }
            else
            {
                // default to a cluster fit (could be iterative or not)
                ClusterFit fit = new ClusterFit(colours, flags, metric);
                fit.Compress(ref block, colourBlock);
            }

            // compress alpha separately if necessary
            if ((flags & SquishFlags.kDxt3) != 0)
            {
                CompressAlphaDxt3(rgba, mask, ref block, alphaBlock);
            }
            else if ((flags & SquishFlags.kDxt5) != 0)
            {
                CompressAlphaDxt5(rgba, mask, ref block, alphaBlock);
            }
        }