public void InjectDds(TagSerializer serializer, TagDeserializer deserializer, Bitmap bitmap, int imageIndex, Stream ddsStream) { // Deserialize the old definition var resourceContext = new ResourceSerializationContext(bitmap.Resources[imageIndex].Resource); var definition = deserializer.Deserialize<BitmapTextureResourceDefinition>(resourceContext); if (definition.Texture == null || definition.Texture.Definition == null) throw new ArgumentException("Invalid bitmap definition"); var texture = definition.Texture.Definition; // Read the DDS header and modify the definition to match var dds = DdsHeader.Read(ddsStream); var dataSize = (int)(ddsStream.Length - ddsStream.Position); texture.Data = new ResourceDataReference(dataSize, new ResourceAddress(ResourceAddressType.Resource, 0)); texture.Width = (short)dds.Width; texture.Height = (short)dds.Height; texture.Depth = (sbyte)Math.Max(1, dds.Depth); texture.Levels = (sbyte)Math.Max(1, dds.MipMapCount); texture.Type = BitmapDdsFormatDetection.DetectType(dds); texture.D3DFormatUnused = (int)((dds.D3D10Format != DxgiFormat.Bc5UNorm) ? dds.FourCc : DdsFourCc.FromString("ATI2")); texture.Format = BitmapDdsFormatDetection.DetectFormat(dds); // Set flags based on the format switch (definition.Texture.Definition.Format) { case BitmapFormat.Dxt1: case BitmapFormat.Dxt3: case BitmapFormat.Dxt5: case BitmapFormat.Dxn: definition.Texture.Definition.Flags = BitmapFlags.Compressed; break; default: definition.Texture.Definition.Flags = BitmapFlags.None; break; } // Inject the resource data _resourceManager.Replace(bitmap.Resources[imageIndex].Resource, ddsStream); // Serialize the new resource definition serializer.Serialize(resourceContext, definition); // Modify the image data in the bitmap tag to match the definition var imageData = bitmap.Images[imageIndex]; imageData.Width = texture.Width; imageData.Height = texture.Height; imageData.Depth = texture.Depth; imageData.Type = texture.Type; imageData.Format = texture.Format; imageData.Flags = texture.Flags; imageData.MipmapCount = (sbyte)(texture.Levels - 1); imageData.DataOffset = texture.Data.Address.Offset; imageData.DataSize = texture.Data.Size; }
public void InjectDds(TagSerializer serializer, TagDeserializer deserializer, Bitmap bitmap, int imageIndex, Stream ddsStream) { var resource = bitmap.Resources[imageIndex].Resource; var newResource = (resource == null); ResourceSerializationContext resourceContext; BitmapTextureResourceDefinition definition; if (newResource) { // Create a new resource reference resource = new ResourceReference { DefinitionFixups = new List<ResourceDefinitionFixup>(), D3DObjectFixups = new List<D3DObjectFixup>(), Type = 1, // TODO: Map out this type enum instead of using numbers Unknown68 = 1 }; bitmap.Resources[imageIndex].Resource = resource; resourceContext = new ResourceSerializationContext(resource); definition = new BitmapTextureResourceDefinition { Texture = new D3DPointer<BitmapTextureResourceDefinition.BitmapDefinition> { Definition = new BitmapTextureResourceDefinition.BitmapDefinition() } }; } else { // Deserialize the old definition resourceContext = new ResourceSerializationContext(resource); definition = deserializer.Deserialize<BitmapTextureResourceDefinition>(resourceContext); } if (definition.Texture == null || definition.Texture.Definition == null) throw new ArgumentException("Invalid bitmap definition"); var texture = definition.Texture.Definition; var imageData = bitmap.Images[imageIndex]; // Read the DDS header and modify the definition to match var dds = DdsHeader.Read(ddsStream); var dataSize = (int)(ddsStream.Length - ddsStream.Position); texture.Data = new ResourceDataReference(dataSize, new ResourceAddress(ResourceAddressType.Resource, 0)); texture.Width = (short)dds.Width; texture.Height = (short)dds.Height; texture.Depth = (sbyte)Math.Max(1, dds.Depth); texture.Levels = (sbyte)Math.Max(1, dds.MipMapCount); texture.Type = BitmapDdsFormatDetection.DetectType(dds); texture.D3DFormatUnused = (int)((dds.D3D10Format != DxgiFormat.Bc5UNorm) ? dds.FourCc : DdsFourCc.FromString("ATI2")); texture.Format = BitmapDdsFormatDetection.DetectFormat(dds); // Set flags based on the format switch (texture.Format) { case BitmapFormat.Dxt1: case BitmapFormat.Dxt3: case BitmapFormat.Dxt5: case BitmapFormat.Dxn: texture.Flags = BitmapFlags.Compressed; break; default: texture.Flags = BitmapFlags.None; break; } if ((texture.Width & (texture.Width - 1)) == 0 && (texture.Height & (texture.Height - 1)) == 0) texture.Flags |= BitmapFlags.PowerOfTwoDimensions; // If creating a new image, then add a new resource, otherwise replace the existing one if (newResource) _resourceManager.Add(resource, ResourceLocation.Textures, ddsStream); else _resourceManager.Replace(resource, ddsStream); // Serialize the new resource definition serializer.Serialize(resourceContext, definition); // Modify the image data in the bitmap tag to match the definition imageData.Width = texture.Width; imageData.Height = texture.Height; imageData.Depth = texture.Depth; imageData.Type = texture.Type; imageData.Format = texture.Format; imageData.Flags = texture.Flags; imageData.MipmapCount = (sbyte)(texture.Levels - 1); imageData.DataOffset = texture.Data.Address.Offset; imageData.DataSize = texture.Data.Size; imageData.Unknown15 = texture.Unknown35; }
private void SerializeDefinitionData(TagSerializer serializer, RenderGeometryResourceDefinition definition) { _model.Geometry.Resource = new ResourceReference { Type = 5, // FIXME: hax DefinitionFixups = new List<ResourceDefinitionFixup>(), D3DObjectFixups = new List<D3DObjectFixup>(), Unknown68 = 1, }; var context = new ResourceSerializationContext(_model.Geometry.Resource); serializer.Serialize(context, definition); }