GARbro-mirror/GameRes/ImageTGA.cs

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//! \file ImageTGA.cs
//! \date Fri Jul 04 07:24:38 2014
//! \brief Targa image implementation.
//
// Copyright (C) 2014-2015 by morkt
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to
// deal in the Software without restriction, including without limitation the
// rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
// sell copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
// IN THE SOFTWARE.
//
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using System;
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using System.IO;
using System.Text;
using System.Windows;
using System.Windows.Media;
using System.Windows.Media.Imaging;
using System.ComponentModel.Composition;
namespace GameRes
{
public class TgaMetaData : ImageMetaData
{
public short ImageType;
public short ColormapType;
public uint ColormapOffset;
public ushort ColormapFirst;
public ushort ColormapLength;
public short ColormapDepth;
public short Descriptor;
}
[Export(typeof(ImageFormat))]
public class TgaFormat : ImageFormat
{
public override string Tag { get { return "TGA"; } }
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public override string Description { get { return "Truevision TGA image"; } }
public override uint Signature { get { return 0; } }
public override bool CanWrite { get { return true; } }
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public override ImageData Read (IBinaryStream stream, ImageMetaData metadata)
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{
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var reader = new Reader (stream, (TgaMetaData)metadata);
var pixels = reader.Unpack();
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return ImageData.Create (metadata, reader.Format, reader.Palette, pixels, reader.Stride);
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}
public override void Write (Stream stream, ImageData image)
{
using (var file = new BinaryWriter (stream, System.Text.Encoding.ASCII, true))
{
file.Write ((byte)0); // idlength
file.Write ((byte)0); // colourmaptype
file.Write ((byte)2); // datatypecode
file.Write ((short)0); // colourmaporigin
file.Write ((short)0); // colourmaplength
file.Write ((byte)0); // colourmapdepth
file.Write ((short)image.OffsetX);
file.Write ((short)image.OffsetY);
file.Write ((ushort)image.Width);
file.Write ((ushort)image.Height);
var bitmap = image.Bitmap;
int bpp = 0;
int stride = 0;
byte descriptor = 0;
if (PixelFormats.Bgr24 == bitmap.Format)
{
bpp = 24;
stride = (int)image.Width*3;
}
else if (PixelFormats.Bgr32 == bitmap.Format)
{
bpp = 32;
stride = (int)image.Width*4;
}
else
{
bpp = 32;
stride = (int)image.Width*4;
if (PixelFormats.Bgra32 != bitmap.Format)
{
var converted_bitmap = new FormatConvertedBitmap();
converted_bitmap.BeginInit();
converted_bitmap.Source = image.Bitmap;
converted_bitmap.DestinationFormat = PixelFormats.Bgra32;
converted_bitmap.EndInit();
bitmap = converted_bitmap;
}
}
file.Write ((byte)bpp);
file.Write (descriptor);
byte[] row_data = new byte[stride];
Int32Rect rect = new Int32Rect (0, (int)image.Height, (int)image.Width, 1);
for (uint row = 0; row < image.Height; ++row)
{
--rect.Y;
bitmap.CopyPixels (rect, row_data, stride, 0);
file.Write (row_data);
}
}
}
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public override ImageMetaData ReadMetaData (IBinaryStream file)
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{
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short id_length = (short)file.ReadByte();
short colormap_type = (short)file.ReadByte();
if (colormap_type > 1)
return null;
short image_type = (short)file.ReadByte();
ushort colormap_first = file.ReadUInt16();
ushort colormap_length = file.ReadUInt16();
short colormap_depth = (short)file.ReadByte();
int pos_x = file.ReadInt16();
int pos_y = file.ReadInt16();
uint width = file.ReadUInt16();
uint height = file.ReadUInt16();
int bpp = file.ReadByte();
if (bpp != 32 && bpp != 24 && bpp != 16 && bpp != 15 && bpp != 8)
return null;
short descriptor = (short)file.ReadByte();
uint colormap_offset = (uint)(18 + id_length);
switch (image_type)
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{
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default: return null;
case 1: // Uncompressed, color-mapped images.
case 9: // Runlength encoded color-mapped images.
case 32: // Compressed color-mapped data, using Huffman, Delta, and
// runlength encoding.
case 33: // Compressed color-mapped data, using Huffman, Delta, and
// runlength encoding. 4-pass quadtree-type process.
if (colormap_depth != 24 && colormap_depth != 32)
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return null;
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break;
case 2: // Uncompressed, RGB images.
case 3: // Uncompressed, black and white images.
case 10: // Runlength encoded RGB images.
case 11: // Compressed, black and white images.
break;
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}
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return new TgaMetaData {
OffsetX = pos_x,
OffsetY = pos_y,
Width = width,
Height = height,
BPP = bpp,
ImageType = image_type,
ColormapType = colormap_type,
ColormapOffset = colormap_offset,
ColormapFirst = colormap_first,
ColormapLength = colormap_length,
ColormapDepth = colormap_depth,
Descriptor = descriptor,
};
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}
internal class Reader
{
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IBinaryStream m_input;
TgaMetaData m_meta;
int m_width;
int m_height;
int m_stride;
byte[] m_data;
long m_image_offset;
public PixelFormat Format { get; private set; }
public BitmapPalette Palette { get; private set; }
public int Stride { get { return m_stride; } }
public byte[] Data { get { return m_data; } }
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public Reader (IBinaryStream stream, TgaMetaData meta)
{
m_input = stream;
m_meta = meta;
switch (meta.BPP)
{
default: throw new InvalidFormatException();
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case 8:
if (1 == meta.ColormapType)
Format = PixelFormats.Indexed8;
else
Format = PixelFormats.Gray8;
break;
case 15: Format = PixelFormats.Bgr555; break;
case 16: Format = PixelFormats.Bgr555; break;
case 32: Format = PixelFormats.Bgra32; break;
case 24:
if (8 == (meta.Descriptor & 0xf))
Format = PixelFormats.Bgr32;
else
Format = PixelFormats.Bgr24;
break;
}
int colormap_size = meta.ColormapLength * meta.ColormapDepth / 8;
m_width = (int)meta.Width;
m_height = (int)meta.Height;
m_stride = m_width * ((Format.BitsPerPixel+7) / 8);
m_image_offset = meta.ColormapOffset;
if (1 == meta.ColormapType)
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{
m_image_offset += colormap_size;
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m_input.Position = meta.ColormapOffset;
ReadColormap (meta.ColormapLength, meta.ColormapDepth);
}
m_data = new byte[m_stride*m_height];
}
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private void ReadColormap (int length, int depth)
{
if (24 != depth && 32 != depth)
throw new NotImplementedException();
int pixel_size = depth / 8;
var palette_data = new byte[length * pixel_size];
if (palette_data.Length != m_input.Read (palette_data, 0, palette_data.Length))
throw new InvalidFormatException();
var palette = new Color[length];
for (int i = 0; i < palette.Length; ++i)
{
byte b = palette_data[i*pixel_size];
byte g = palette_data[i*pixel_size+1];
byte r = palette_data[i*pixel_size+2];
palette[i] = Color.FromRgb (r, g, b);
}
Palette = new BitmapPalette (palette);
}
public byte[] Unpack ()
{
switch (m_meta.ImageType)
{
case 9: // Runlength encoded color-mapped images.
case 32: // Compressed color-mapped data, using Huffman, Delta, and
// runlength encoding.
case 33: // Compressed color-mapped data, using Huffman, Delta, and
// runlength encoding. 4-pass quadtree-type process.
throw new NotImplementedException();
default:
throw new InvalidFormatException();
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case 1: // Uncompressed, color-mapped images.
case 2: // Uncompressed, RGB images.
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case 3: // Uncompressed, black and white images.
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ReadRaw();
break;
case 10: // Runlength encoded RGB images.
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case 11: // Compressed, black and white images.
ReadRLE ((m_meta.BPP+7)/8);
break;
}
return Data;
}
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void ReadRaw ()
{
m_input.Position = m_image_offset;
if (0 != (m_meta.Descriptor & 0x20))
{
if (m_data.Length != m_input.Read (m_data, 0, m_data.Length))
throw new InvalidFormatException();
}
else
{
for (int row = m_height-1; row >= 0; --row)
{
if (m_stride != m_input.Read (m_data, row*m_stride, m_stride))
throw new InvalidFormatException();
}
}
}
void ReadRLE (int pixel_size)
{
m_input.Position = m_image_offset;
for (int dst = 0; dst < m_data.Length;)
{
int packet = m_input.ReadByte();
if (-1 == packet)
break;
int count = (packet & 0x7f) + 1;
if (0 != (packet & 0x80))
{
if (pixel_size != m_input.Read (m_data, dst, pixel_size))
break;
int src = dst;
dst += pixel_size;
for (int i = 1; i < count && dst < m_data.Length; ++i)
{
Buffer.BlockCopy (m_data, src, m_data, dst, pixel_size);
dst += pixel_size;
}
}
else
{
count *= pixel_size;
if (count != m_input.Read (m_data, dst, count))
break;
dst += count;
}
}
if (0 == (m_meta.Descriptor & 0x20))
{
byte[] flipped = new byte[m_stride*m_height];
int dst = 0;
for (int src = m_stride*(m_height-1); src >= 0; src -= m_stride)
{
Buffer.BlockCopy (m_data, src, flipped, dst, m_stride);
dst += m_stride;
}
m_data = flipped;
}
}
}
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}
}