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//! \file ArcIAR.cs
//! \date Fri Oct 23 12:31:15 2015
//! \brief Sas5 engine image archive.
//
// Copyright (C) 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.
//
using System;
using System.Collections.Generic;
using System.ComponentModel.Composition;
using System.IO;
using GameRes.Utility;
using System.Text;
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using System.Diagnostics;
using System.Drawing;
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namespace GameRes.Formats.Sas5
{
internal class IarArchive : ArcFile
{
public readonly int Version;
public IarArchive (ArcView arc, ArchiveFormat impl, ICollection<Entry> dir, int version)
: base (arc, impl, dir)
{
Version = version;
}
}
internal class IarImageInfo : ImageMetaData
{
public int Flags;
public bool Compressed;
public uint PaletteSize;
public int PackedSize;
public int UnpackedSize;
public int Stride;
}
[Export(typeof(ArchiveFormat))]
public class IarOpener : ArchiveFormat
{
public override string Tag { get { return "IAR"; } }
public override string Description { get { return "SAS5 engine images archive"; } }
public override uint Signature { get { return 0x20726169; } } // 'iar '
public override bool IsHierarchic { get { return false; } }
public override bool CanWrite { get { return false; } }
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public override ArcFile TryOpen (ArcView file)
{
int version = file.View.ReadInt16 (4);
if (version < 1 || version > 4)
return null;
int file_count = file.View.ReadInt32 (0x18);
int count = file.View.ReadInt32 (0x1C);
if (count < file_count || !IsSaneCount (count))
return null;
var index = Sec5Opener.LookupIndex (file.Name);
string base_name = Path.GetFileNameWithoutExtension (file.Name);
Func<int, Entry> CreateEntry;
if (null == index)
CreateEntry = n => GetDefaultEntry (base_name, n);
else
CreateEntry = (n) => {
Entry entry;
if (index.TryGetValue (n, out entry))
return new Entry { Name = entry.Name, Type = entry.Type };
return GetDefaultEntry (base_name, n);
};
uint offset_size = version < 3 ? 4u : 8u;
Func<uint, long> ReadOffset;
if (version < 3)
ReadOffset = x => file.View.ReadUInt32 (x);
else
ReadOffset = x => file.View.ReadInt64 (x);
uint index_offset = 0x20;
var dir = new List<Entry> (count);
var next_offset = ReadOffset (index_offset);
for (int i = 0; i < count; ++i)
{
var entry = CreateEntry (i);
entry.Offset = next_offset;
index_offset += offset_size;
next_offset = (i + 1) == count ? file.MaxOffset : ReadOffset (index_offset);
entry.Size = (uint)(next_offset - entry.Offset);
if (!entry.CheckPlacement (file.MaxOffset))
return null;
dir.Add (entry);
}
return new IarArchive (file, this, dir, version);
}
static Entry GetDefaultEntry (string base_name, int n)
{
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return new Entry {
Name = string.Format ("{0}#{1:D5}", base_name, n),
Type = "image",
};
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}
public override Stream OpenEntry (ArcFile arc, Entry entry)
{
var iarc = arc as IarArchive;
if (null == iarc)
return base.OpenEntry (arc, entry);
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try
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{
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int flags = arc.File.View.ReadUInt16 (entry.Offset);
var image = new IarImage (iarc, entry);
if (0 != (flags & 0x1000))
image = CombineLayers (image, iarc);
else if (0 != (flags & 0x800))
image = CombineImage (image, iarc);
if (null == image)
return base.OpenEntry (arc, entry);
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// internal 'IAR SAS5' format
var header = new byte[0x28+image.Info.PaletteSize];
using (var mem = new MemoryStream (header))
using (var writer = new BinaryWriter (mem))
{
writer.Write (0x00524149); // 'IAR'
writer.Write (0x35534153); // 'SAS5'
writer.Write (image.Info.Width);
writer.Write (image.Info.Height);
writer.Write (image.Info.OffsetX);
writer.Write (image.Info.OffsetY);
writer.Write (image.Info.BPP);
writer.Write (image.Info.Stride);
writer.Write (image.Info.PaletteSize);
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writer.Write (image.Data.Length);
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if (null != image.Palette)
writer.Write (image.Palette, 0, image.Palette.Length);
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return new PrefixStream (header, new MemoryStream (image.Data));
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}
}
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catch (Exception X)
{
Trace.WriteLine (X.Message, entry.Name);
return base.OpenEntry (arc, entry);
}
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}
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IarImage CombineImage (IarImage overlay, IarArchive iarc)
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{
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using (var mem = new MemoryStream (overlay.Data))
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using (var input = new BinaryReader (mem))
{
var dir = (List<Entry>)iarc.Dir;
int base_index = input.ReadInt32();
if (base_index >= dir.Count)
throw new InvalidFormatException ("Invalid base image index");
int diff_y = input.ReadInt32();
int diff_count = input.ReadInt32();
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var overlay_info = overlay.Info;
var base_image = new IarImage (iarc, dir[base_index]);
byte[] output = base_image.Data;
if (overlay_info.Height != base_image.Info.Height || overlay_info.Stride != base_image.Info.Stride)
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{
int src_height = (int)Math.Min (overlay_info.Height, base_image.Info.Height);
int src_stride = Math.Min (overlay_info.Stride, base_image.Info.Stride);
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byte[] src = base_image.Data;
output = new byte[overlay_info.Height * overlay_info.Stride];
int dst_pos = 0;
for (int y = 0; y < src_height; ++y)
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{
Buffer.BlockCopy (src, y * base_image.Info.Stride, output, dst_pos, src_stride);
dst_pos += overlay_info.Stride;
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}
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}
int pixel_size = overlay_info.BPP / 8;
int dst = diff_y * overlay_info.Stride;
for (int i = 0; i < diff_count; ++i)
{
int chunk_count = input.ReadUInt16();
int x = 0;
for (int j = 0; j < chunk_count; ++j)
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{
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int skip_count = pixel_size * input.ReadUInt16();
int copy_count = pixel_size * input.ReadUInt16();
x += skip_count;
input.Read (output, dst+x, copy_count);
x += copy_count;
}
dst += overlay_info.Stride;
}
return new IarImage (overlay_info, output, overlay.Palette);
}
}
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IarImage CombineLayers (IarImage layers, IarArchive iarc)
{
layers.Info.Stride = (int)layers.Info.Width * 4;
layers.Info.BPP = 32;
var pixels = new byte[layers.Info.Stride * (int)layers.Info.Height];
var output = new IarImage (layers.Info, pixels);
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using (var mem = new MemoryStream (layers.Data))
using (var input = new BinaryReader (mem))
{
int offset_x = 0, offset_y = 0;
var dir = (List<Entry>)iarc.Dir;
while (input.BaseStream.Position < input.BaseStream.Length)
{
int cmd = input.ReadByte();
switch (cmd)
{
case 0x21:
offset_x += input.ReadInt16();
offset_y += input.ReadInt16();
break;
case 0x00:
case 0x20:
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{
int index = input.ReadInt32();
if (index < 0 || index >= dir.Count)
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throw new InvalidFormatException ("Invalid image layer index");
var layer = new IarImage (iarc, dir[index]);
layer.Info.OffsetX -= offset_x;
layer.Info.OffsetY -= offset_y;
if (0x20 == cmd)
output.ApplyMask (layer);
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else
output.Blend (layer);
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}
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break;
default:
Trace.WriteLine (string.Format ("Unknown layer type 0x{0:X2}", cmd), "IAR");
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break;
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}
}
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return output;
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}
}
}
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internal class IarImage
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{
IarImageInfo m_info;
byte[] m_palette;
byte[] m_output;
public IarImageInfo Info { get { return m_info; } }
public byte[] Palette { get { return m_palette; } }
public byte[] Data { get { return m_output; } }
public IarImage (IarArchive iarc, Entry entry)
{
int flags = iarc.File.View.ReadUInt16 (entry.Offset);
int bpp;
switch (flags & 0x3E)
{
case 0x02: bpp = 8; break;
case 0x1C: bpp = 24; break;
case 0x3C: bpp = 32; break;
default: throw new NotSupportedException ("Not supported IAR image format");
}
var offset = entry.Offset;
m_info = new IarImageInfo
{
Flags = flags,
BPP = bpp,
Compressed = iarc.File.View.ReadByte (offset+3) != 0,
Width = iarc.File.View.ReadUInt32 (offset+0x20),
Height = iarc.File.View.ReadUInt32 (offset+0x24),
Stride = iarc.File.View.ReadInt32 (offset+0x28),
OffsetX = iarc.File.View.ReadInt32 (offset+0x18),
OffsetY = iarc.File.View.ReadInt32 (offset+0x1C),
UnpackedSize = iarc.File.View.ReadInt32 (offset+8),
PaletteSize = iarc.File.View.ReadUInt32 (offset+0xC),
PackedSize = iarc.File.View.ReadInt32 (offset+0x10),
};
uint header_size = 1 == iarc.Version ? 0x30u : iarc.Version < 4 ? 0x40u : 0x48u;
offset += header_size;
uint input_size = entry.Size - header_size;
if (m_info.PaletteSize > 0)
{
m_palette = new byte[m_info.PaletteSize];
iarc.File.View.Read (offset, m_palette, 0, m_info.PaletteSize);
offset += m_info.PaletteSize;
input_size -= m_info.PaletteSize;
}
m_output = new byte[m_info.UnpackedSize];
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using (var input = iarc.File.CreateStream (offset, input_size))
{
if (m_info.Compressed)
{
using (var reader = new IarDecompressor (input))
reader.Unpack (m_output);
}
else
input.Read (m_output, 0, m_output.Length);
}
}
public IarImage (IarImageInfo info, byte[] pixels, byte[] palette = null)
{
m_info = info;
m_output = pixels;
m_palette = palette;
}
public void Blend (IarImage overlay)
{
int pixel_size = Info.Stride / (int)Info.Width;
if (pixel_size < 4)
return;
var self = new Rectangle (-Info.OffsetX, -Info.OffsetY, (int)Info.Width, (int)Info.Height);
var src = new Rectangle (-overlay.Info.OffsetX, -overlay.Info.OffsetY,
(int)overlay.Info.Width, (int)overlay.Info.Height);
var blend = Rectangle.Intersect (self, src);
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if (blend.IsEmpty)
return;
src.X = blend.Left - src.Left;
src.Y = blend.Top - src.Top;
src.Width = blend.Width;
src.Height= blend.Height;
if (src.Width <= 0 || src.Height <= 0)
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return;
int x = blend.Left - self.Left;
int y = blend.Top - self.Top;
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int dst = y * Info.Stride + x * pixel_size;
int ov = src.Top * overlay.Info.Stride + src.Left * pixel_size;
for (int row = 0; row < src.Height; ++row)
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{
for (int col = 0; col < src.Width; ++col)
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{
int src_pixel = ov + col*pixel_size;
int src_alpha = overlay.Data[src_pixel+3];
if (src_alpha > 0)
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{
int dst_pixel = dst + col*pixel_size;
if (0xFF == src_alpha || 0 == m_output[dst_pixel+3])
{
Buffer.BlockCopy (overlay.Data, src_pixel, m_output, dst_pixel, pixel_size);
}
else
{
m_output[dst_pixel+0] = (byte)((overlay.Data[src_pixel+0] * src_alpha
+ m_output[dst_pixel+0] * (0xFF - src_alpha)) / 0xFF);
m_output[dst_pixel+1] = (byte)((overlay.Data[src_pixel+1] * src_alpha
+ m_output[dst_pixel+1] * (0xFF - src_alpha)) / 0xFF);
m_output[dst_pixel+2] = (byte)((overlay.Data[src_pixel+2] * src_alpha
+ m_output[dst_pixel+2] * (0xFF - src_alpha)) / 0xFF);
m_output[dst_pixel+3] = (byte)Math.Max (src_alpha, m_output[dst_pixel+3]);
}
}
}
dst += Info.Stride;
ov += overlay.Info.Stride;
}
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}
public void ApplyMask (IarImage mask)
{
int pixel_size = Info.Stride / (int)Info.Width;
if (pixel_size < 4 || mask.Info.BPP != 8)
return;
var self = new Rectangle (-Info.OffsetX, -Info.OffsetY, (int)Info.Width, (int)Info.Height);
var mask_region = new Rectangle (-mask.Info.OffsetX, -mask.Info.OffsetY,
(int)mask.Info.Width, (int)mask.Info.Height);
var masked = Rectangle.Intersect (self, mask_region);
if (masked.IsEmpty)
return;
mask_region.X = masked.Left - mask_region.Left;
mask_region.Y = masked.Top - mask_region.Top;
mask_region.Width = masked.Width;
mask_region.Height= masked.Height;
if (mask_region.Width <= 0 || mask_region.Height <= 0)
return;
int x = masked.Left - self.Left;
int y = masked.Top - self.Top;
int dst = y * Info.Stride + x * pixel_size;
int src = mask_region.Top * mask.Info.Stride + mask_region.Left;
for (int row = 0; row < mask_region.Height; ++row)
{
int dst_pixel = dst+3;
for (int col = 0; col < mask_region.Width; ++col)
{
m_output[dst_pixel] = mask.Data[src+col];
dst_pixel += pixel_size;
}
dst += Info.Stride;
src += mask.Info.Stride;
}
}
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}
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internal sealed class IarDecompressor : IDisposable
{
BinaryReader m_input;
public IarDecompressor (Stream input)
{
m_input = new ArcView.Reader (input);
}
int m_bits = 1;
public void Unpack (byte[] output)
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{
m_bits = 1;
int dst = 0;
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while (dst < output.Length)
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{
if (1 == GetNextBit())
{
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output[dst++] = m_input.ReadByte();
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continue;
}
int offset, count;
if (1 == GetNextBit())
{
int tmp = GetNextBit();
if (1 == GetNextBit())
offset = 1;
else if (1 == GetNextBit())
offset = 0x201;
else
{
tmp = (tmp << 1) | GetNextBit();
if (1 == GetNextBit())
offset = 0x401;
else
{
tmp = (tmp << 1) | GetNextBit();
if (1 == GetNextBit())
offset = 0x801;
else
{
offset = 0x1001;
tmp = (tmp << 1) | GetNextBit();
}
}
}
offset += (tmp << 8) | m_input.ReadByte();
if (1 == GetNextBit())
count = 3;
else if (1 == GetNextBit())
count = 4;
else if (1 == GetNextBit())
count = 5;
else if (1 == GetNextBit())
count = 6;
else if (1 == GetNextBit())
count = 7 + GetNextBit();
else if (1 == GetNextBit())
count = 17 + m_input.ReadByte();
else
{
count = GetNextBit() << 2;
count |= GetNextBit() << 1;
count |= GetNextBit();
count += 9;
}
}
else
{
count = 2;
if (1 == GetNextBit())
{
offset = GetNextBit() << 10;
offset |= GetNextBit() << 9;
offset |= GetNextBit() << 8;
offset = (offset | m_input.ReadByte()) + 0x100;
}
else
{
offset = 1 + m_input.ReadByte();
if (0x100 == offset)
break;
}
}
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Binary.CopyOverlapped (output, dst - offset, dst, count);
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dst += count;
}
}
int GetNextBit ()
{
if (1 == m_bits)
{
m_bits = m_input.ReadUInt16() | 0x10000;
}
int b = m_bits & 1;
m_bits >>= 1;
return b;
}
#region IDisposable Members
bool _disposed = false;
public void Dispose ()
{
if (!_disposed)
{
m_input.Dispose();
_disposed = true;
}
}
#endregion
}
}