Exemple #1
0
        /// <summary>
        /// Writes the logical screen descriptor to the stream.
        /// </summary>
        /// <typeparam name="T">The pixel format.</typeparam>
        /// <typeparam name="TP">The packed format. <example>long, float.</example></typeparam>
        /// <param name="image">The image to encode.</param>
        /// <param name="writer">The writer to write to the stream with.</param>
        /// <param name="tranparencyIndex">The transparency index to set the default backgound index to.</param>
        private void WriteLogicalScreenDescriptor <T, TP>(Image <T, TP> image, EndianBinaryWriter writer, int tranparencyIndex)
            where T : IPackedVector <TP>
            where TP : struct
        {
            GifLogicalScreenDescriptor descriptor = new GifLogicalScreenDescriptor
            {
                Width  = (short)image.Width,
                Height = (short)image.Height,
                GlobalColorTableFlag = false, // Always false for now.
                GlobalColorTableSize = this.bitDepth - 1,
                BackgroundColorIndex = (byte)(tranparencyIndex > -1 ? tranparencyIndex : 255)
            };

            writer.Write((ushort)descriptor.Width);
            writer.Write((ushort)descriptor.Height);

            PackedField field = new PackedField();

            field.SetBit(0, descriptor.GlobalColorTableFlag);     // 1   : Global color table flag = 1 || 0 (GCT used/ not used)
            field.SetBits(1, 3, descriptor.GlobalColorTableSize); // 2-4 : color resolution
            field.SetBit(4, false);                               // 5   : GCT sort flag = 0
            field.SetBits(5, 3, descriptor.GlobalColorTableSize); // 6-8 : GCT size. 2^(N+1)

            // Reduce the number of writes
            byte[] arr =
            {
                field.Byte,
                descriptor.BackgroundColorIndex, // Background Color Index
                descriptor.PixelAspectRatio      // Pixel aspect ratio. Assume 1:1
            };

            writer.Write(arr);
        }
Exemple #2
0
        /// <summary>
        /// Writes the image descriptor to the stream.
        /// </summary>
        /// <typeparam name="T">The pixel format.</typeparam>
        /// <typeparam name="TP">The packed format. <example>long, float.</example></typeparam>
        /// <param name="image">The <see cref="ImageBase{T,TP}"/> to be encoded.</param>
        /// <param name="writer">The stream to write to.</param>
        private void WriteImageDescriptor <T, TP>(ImageBase <T, TP> image, EndianBinaryWriter writer)
            where T : IPackedVector <TP>
            where TP : struct
        {
            writer.Write(GifConstants.ImageDescriptorLabel); // 2c
            // TODO: Can we capture this?
            writer.Write((ushort)0);                         // Left position
            writer.Write((ushort)0);                         // Top position
            writer.Write((ushort)image.Width);
            writer.Write((ushort)image.Height);

            PackedField field = new PackedField();

            field.SetBit(0, true);                  // 1: Local color table flag = 1 (LCT used)
            field.SetBit(1, false);                 // 2: Interlace flag 0
            field.SetBit(2, false);                 // 3: Sort flag 0
            field.SetBits(5, 3, this.bitDepth - 1); // 4-5: Reserved, 6-8 : LCT size. 2^(N+1)

            writer.Write(field.Byte);
        }
Exemple #3
0
        /// <summary>
        /// Writes the graphics control extension to the stream.
        /// </summary>
        /// <typeparam name="T">The pixel format.</typeparam>
        /// <typeparam name="TP">The packed format. <example>long, float.</example></typeparam>
        /// <param name="image">The <see cref="ImageBase{T,TP}"/> to encode.</param>
        /// <param name="writer">The stream to write to.</param>
        /// <param name="transparencyIndex">The index of the color in the color palette to make transparent.</param>
        private void WriteGraphicalControlExtension <T, TP>(ImageBase <T, TP> image, EndianBinaryWriter writer, int transparencyIndex)
            where T : IPackedVector <TP>
            where TP : struct
        {
            // TODO: Check transparency logic.
            bool           hasTransparent = transparencyIndex > -1;
            DisposalMethod disposalMethod = hasTransparent
                ? DisposalMethod.RestoreToBackground
                : DisposalMethod.Unspecified;

            GifGraphicsControlExtension extension = new GifGraphicsControlExtension()
            {
                DisposalMethod    = disposalMethod,
                TransparencyFlag  = hasTransparent,
                TransparencyIndex = transparencyIndex,
                DelayTime         = image.FrameDelay
            };

            // Reduce the number of writes.
            byte[] intro =
            {
                GifConstants.ExtensionIntroducer,
                GifConstants.GraphicControlLabel,
                4 // Size
            };

            writer.Write(intro);

            PackedField field = new PackedField();

            field.SetBits(3, 3, (int)extension.DisposalMethod); // 1-3 : Reserved, 4-6 : Disposal

            // TODO: Allow this as an option.
            field.SetBit(6, false);                      // 7 : User input - 0 = none
            field.SetBit(7, extension.TransparencyFlag); // 8: Has transparent.

            writer.Write(field.Byte);
            writer.Write((ushort)extension.DelayTime);
            writer.Write((byte)(extension.TransparencyIndex == -1 ? 255 : extension.TransparencyIndex));
            writer.Write(GifConstants.Terminator);
        }