public async Task CompileAsync(IAssetFsFile assetFile, IAssetDependencies assetDependencies, TargetPlatform platform, IWritableSerializedAsset output)
{
if (IntPtr.Size == 4)
{
throw new NotSupportedException("Font compilation is only supported under a 64-bit process.");
}
var json = string.Empty;
using (var reader = new StreamReader(await assetFile.GetContentStream().ConfigureAwait(false)))
{
json = await reader.ReadToEndAsync().ConfigureAwait(false);
}
var fontDefinition = JsonConvert.DeserializeObject <FontDefinition>(json);
foreach (var fontDesc in this.GetDescriptionsForAsset(fontDefinition))
{
try
{
var manager = new PipelineManager(
Environment.CurrentDirectory,
Environment.CurrentDirectory,
Environment.CurrentDirectory);
var dictionary = new OpaqueDataDictionary();
var processor = manager.CreateProcessor("FontDescriptionProcessor", dictionary);
var context = new DummyContentProcessorContext(TargetPlatformCast.ToMonoGamePlatform(platform));
var content = processor.Process(fontDesc, context);
output.SetLoader <IAssetLoader <FontAsset> >();
output.SetPlatform(platform);
output.SetByteArray("Data", CompileAndGetBytes(content));
output.SetString("FontName", fontDesc.FontName);
output.SetFloat("FontSize", fontDesc.Size);
output.SetBoolean("UseKerning", fontDesc.UseKerning);
output.SetFloat("Spacing", fontDesc.Spacing);
// Font compilation was successful.
return;
}
catch (ArgumentOutOfRangeException)
{
// The user might not have the font installed...
}
catch (NullReferenceException)
{
// The user might not have the font installed...
}
}
throw new InvalidOperationException("Unable to locate any font with one of the names: " + fontDefinition.FontName);
}
public async Task CompileAsync(IAssetFsFile assetFile, IAssetDependencies assetDependencies, TargetPlatform platform, IWritableSerializedAsset output)
{
string level;
using (var reader = new StreamReader(await assetFile.GetContentStream().ConfigureAwait(false)))
{
level = await reader.ReadToEndAsync().ConfigureAwait(false);
}
output.SetLoader <IAssetLoader <LevelAsset> >();
output.SetString("LevelData", level);
output.SetString("LevelDataFormat", "OgmoEditor");
}
public async Task CompileAsync(IAssetFsFile assetFile, IAssetDependencies assetDependencies, TargetPlatform platform, IWritableSerializedAsset output)
{
TilesetJson tilesetJson;
using (var stream = new StreamReader(await assetFile.GetContentStream().ConfigureAwait(false)))
{
tilesetJson = JsonConvert.DeserializeObject <TilesetJson>(await stream.ReadToEndAsync().ConfigureAwait(false));
}
output.SetLoader <IAssetLoader <TilesetAsset> >();
output.SetString("TextureName", tilesetJson.TextureName);
output.SetInt32("CellWidth", tilesetJson.CellWidth);
output.SetInt32("CellHeight", tilesetJson.CellHeight);
}
public async Task CompileAsync(IAssetFsFile assetFile, IAssetDependencies assetDependencies, TargetPlatform platform, IWritableSerializedAsset output)
{
using (var reader = new StreamReader(await assetFile.GetContentStream().ConfigureAwait(false)))
{
var content = await reader.ReadToEndAsync().ConfigureAwait(false);
// Validate that the XML is valid so we don't throw exceptions at runtime.
var document = new XmlDocument();
document.LoadXml(content);
output.SetLoader <IAssetLoader <UserInterfaceAsset> >();
output.SetString("UserInterfaceFormat", "XmlVersion2");
output.SetString("UserInterfaceData", content);
}
}
public async Task CompileAsync(IAssetFsFile assetFile, IAssetDependencies assetDependencies, TargetPlatform platform, IWritableSerializedAsset output)
{
using (var content = await assetFile.GetContentStream().ConfigureAwait(false))
{
// Currently we just copy the raw data. According to the XNA documentation:
/*
* The Stream object must point to the head of a valid PCM wave file. Also, this wave file must be in the RIFF bitstream format.
* The audio format has the following restrictions:
* Must be a PCM wave file
* Can only be mono or stereo
* Must be 8 or 16 bit
* Sample rate must be between 8,000 Hz and 48,000 Hz
*/
output.SetLoader <IAssetLoader <AudioAsset> >();
var bytes = new byte[content.Length];
await content.ReadAsync(bytes, 0, bytes.Length).ConfigureAwait(false);
output.SetByteArray("Data", bytes);
}
}
public async Task CompileAsync(IAssetFsFile assetFile, IAssetDependencies assetDependencies, TargetPlatform platform, IWritableSerializedAsset output)
{
var otherAnimations = new Dictionary <string, byte[]>();
if (assetFile.Extension != "x")
{
var otherFiles = (await assetDependencies.GetAvailableCompileTimeFiles())
.Where(x => x.Name.StartsWith(assetFile.Name + "-"))
.ToArray();
foreach (var otherAnim in otherFiles)
{
using (var otherStream = await otherAnim.GetContentStream().ConfigureAwait(false))
{
var b = new byte[otherStream.Length];
await otherStream.ReadAsync(b, 0, b.Length).ConfigureAwait(false);
otherAnimations[otherAnim.Name.Substring((assetFile.Name + "-").Length)] = b;
}
}
}
var nameComponents = assetFile.Name.Split('.');
nameComponents[nameComponents.Length - 1] = "_FolderOptions";
var folderOptionsFile = await assetDependencies.GetOptionalCompileTimeFileDependency(string.Join(".", nameComponents)).ConfigureAwait(false);
string[] importFolderOptions = null;
if (folderOptionsFile != null)
{
using (var optionsReader = new StreamReader(await folderOptionsFile.GetContentStream().ConfigureAwait(false)))
{
importFolderOptions = optionsReader.ReadToEnd()
.Trim()
.Split(new[] { '\r', '\n' }, StringSplitOptions.RemoveEmptyEntries)
.Select(x => x.Trim())
.Where(x => !x.StartsWith("#"))
.ToArray();
}
}
var optionsFile = await assetDependencies.GetOptionalCompileTimeFileDependency(assetFile.Name + ".Options").ConfigureAwait(false);
string[] importOptions = null;
if (optionsFile != null)
{
using (var optionsReader = new StreamReader(await optionsFile.GetContentStream().ConfigureAwait(false)))
{
importOptions = optionsReader.ReadToEnd()
.Trim()
.Split(new[] { '\r', '\n' }, StringSplitOptions.RemoveEmptyEntries)
.Select(x => x.Trim())
.Where(x => !x.StartsWith("#"))
.ToArray();
}
}
if (importOptions == null)
{
importOptions = importFolderOptions;
}
byte[] modelData;
using (var stream = await assetFile.GetContentStream().ConfigureAwait(false))
{
modelData = new byte[stream.Length];
await stream.ReadAsync(modelData, 0, modelData.Length).ConfigureAwait(false);
}
var reader = new AssimpReader(_modelRenderConfigurations, _renderBatcher);
var model = reader.Load(modelData, assetFile.Name, assetFile.Extension, otherAnimations, importOptions);
var data = _modelSerializer.Serialize(model);
output.SetLoader <IAssetLoader <ModelAsset> >();
output.SetByteArray("Data", data);
}
public async Task CompileAsync(IAssetFsFile assetFile, IAssetDependencies assetDependencies, TargetPlatform platform, IWritableSerializedAsset output)
{
var tempPath = System.IO.Path.GetTempFileName();
try
{
using (var stream = new FileStream(tempPath, FileMode.Create, FileAccess.Write, FileShare.None))
{
using (var sourceStream = await assetFile.GetContentStream().ConfigureAwait(false))
{
await sourceStream.CopyToAsync(stream).ConfigureAwait(false);
}
}
var importer = new TextureImporter();
var monogameOutput = importer.Import(tempPath, new DummyContentImporterContext());
var originalWidth = monogameOutput.Faces[0][0].Width;
var originalHeight = monogameOutput.Faces[0][0].Height;
var nameComponents = assetFile.Name.Split('.');
nameComponents[nameComponents.Length - 1] = "_FolderOptions";
var folderOptionsFile = await assetDependencies.GetOptionalCompileTimeFileDependency(string.Join(".", nameComponents)).ConfigureAwait(false);
string[] importFolderOptions = null;
if (folderOptionsFile != null)
{
using (var optionsReader = new StreamReader(await folderOptionsFile.GetContentStream().ConfigureAwait(false)))
{
importFolderOptions = optionsReader.ReadToEnd()
.Trim()
.Split(new[] { '\r', '\n' }, StringSplitOptions.RemoveEmptyEntries)
.Select(x => x.Trim())
.Where(x => !x.StartsWith("#"))
.ToArray();
}
}
var optionsFile = await assetDependencies.GetOptionalCompileTimeFileDependency(assetFile.Name + ".Options").ConfigureAwait(false);
string[] importOptions = null;
if (optionsFile != null)
{
using (var optionsReader = new StreamReader(await optionsFile.GetContentStream().ConfigureAwait(false)))
{
importOptions = optionsReader.ReadToEnd()
.Trim()
.Split(new[] { '\r', '\n' }, StringSplitOptions.RemoveEmptyEntries)
.Select(x => x.Trim())
.Where(x => !x.StartsWith("#"))
.ToArray();
}
}
if (importOptions == null)
{
importOptions = importFolderOptions;
}
if (importOptions == null)
{
importOptions = new string[0];
}
var allowResizeToPowerOfTwo = !IsPowerOfTwo((ulong)originalWidth) || !IsPowerOfTwo((ulong)originalHeight);
var allowMakeSquare = originalWidth != originalHeight;
var manager = new PipelineManager(
Environment.CurrentDirectory,
Environment.CurrentDirectory,
Environment.CurrentDirectory);
TextureContent content = CompileTexture(assetFile, platform, monogameOutput, importOptions, allowResizeToPowerOfTwo, allowMakeSquare, manager);
Console.WriteLine("Texture " + assetFile.Name + " resized " + originalWidth + "x" + originalHeight + " -> " + content.Faces[0][0].Width + "x" + content.Faces[0][0].Height);
output.SetLoader <IAssetLoader <TextureAsset> >();
output.SetPlatform(platform);
output.SetByteArray("Data", CompileAndGetBytes(content));
output.SetInt32("OriginalWidth", originalWidth);
output.SetInt32("OriginalHeight", originalHeight);
}
finally
{
try
{
File.Delete(tempPath);
}
catch
{
}
}
}
public async Task CompileAsync(IAssetFsFile assetFile, IAssetDependencies assetDependencies, TargetPlatform platform, IWritableSerializedAsset output)
{
var code = string.Empty;
using (var reader = new StreamReader(await assetFile.GetContentStream().ConfigureAwait(false)))
{
code = await reader.ReadToEndAsync().ConfigureAwait(false);
}
if (!code.Contains("// uber"))
{
// Do nothing with this file.
return;
}
var dirName = Path.GetDirectoryName(assetFile.Name.Replace(".", "/"));
code = await ResolveIncludes(assetDependencies, dirName.Replace(Path.DirectorySeparatorChar, '.'), code).ConfigureAwait(false);
var allPassed = true;
var effectCodes = new Dictionary <string, Tuple <string, byte[], byte[]> >();
foreach (var rawLine in code.Split(new[] { '\r', '\n' }, StringSplitOptions.RemoveEmptyEntries))
{
var line = rawLine.Trim();
if (line.StartsWith("#line"))
{
continue;
}
if (!line.StartsWith("// uber "))
{
break;
}
var components = line.Substring("// uber ".Length).Split(':');
var name = components[0].Trim();
var defines = components[1].Trim();
Console.WriteLine();
Console.Write("Compiling uber shader variant " + name + "... ");
var effectOutput = new EffectContent();
effectOutput.EffectCode = this.GetEffectPrefixCode() + code;
string tempPath = null, tempOutputPath = null;
try
{
tempPath = Path.GetTempFileName();
tempOutputPath = Path.GetTempFileName();
using (var writer = new StreamWriter(tempPath))
{
writer.Write(effectOutput.EffectCode);
}
effectOutput.Identity = new ContentIdentity(tempPath);
var debugContent = EffectCompilerHelper.Compile(
effectOutput,
tempOutputPath,
platform,
true,
defines);
var releaseContent = EffectCompilerHelper.Compile(
effectOutput,
tempOutputPath,
platform,
false,
defines);
effectCodes[name] = new Tuple <string, byte[], byte[]>(defines, debugContent.GetEffectCode(), releaseContent.GetEffectCode());
Console.Write("done.");
}
catch (InvalidContentException ex)
{
Console.WriteLine("failed.");
Console.Write(ex.Message.Trim());
allPassed = false;
}
finally
{
if (tempOutputPath != null)
{
File.Delete(tempOutputPath);
}
if (tempOutputPath != null)
{
File.Delete(tempPath);
}
}
}
Console.WriteLine();
Console.Write("Finalizing uber shader compilation... ");
if (!allPassed)
{
throw new Exception("One or more uber shader variants failed to compile (see above!)");
}
using (var memory = new MemoryStream())
{
using (var writer = new BinaryWriter(memory))
{
writer.Write((uint)2);
writer.Write((uint)effectCodes.Count);
foreach (var kv in effectCodes)
{
writer.Write(kv.Key);
writer.Write(kv.Value.Item1);
writer.Write(kv.Value.Item2.Length);
writer.Write(kv.Value.Item2);
writer.Write(kv.Value.Item3.Length);
writer.Write(kv.Value.Item3);
}
var len = memory.Position;
var data = new byte[len];
memory.Seek(0, SeekOrigin.Begin);
memory.Read(data, 0, data.Length);
output.SetLoader <IAssetLoader <UberEffectAsset> >();
output.SetPlatform(platform);
output.SetByteArray("Data", data);
}
}
}
public async Task CompileAsync(IAssetFsFile assetFile, IAssetDependencies assetDependencies, TargetPlatform platform, IWritableSerializedAsset output)
{
var code = string.Empty;
using (var reader = new StreamReader(await assetFile.GetContentStream().ConfigureAwait(false)))
{
code = await reader.ReadToEndAsync().ConfigureAwait(false);
}
if (code.Contains("// uber"))
{
// Do nothing with this file.
return;
}
var dirName = Path.GetDirectoryName(assetFile.Name.Replace(".", "/"));
code = await ResolveIncludes(assetDependencies, dirName.Replace(Path.DirectorySeparatorChar, '.'), code).ConfigureAwait(false);
var effectContent = new EffectContent();
effectContent.EffectCode = this.GetEffectPrefixCode() + code;
var tempPath = Path.GetTempFileName();
using (var writer = new StreamWriter(tempPath))
{
writer.Write(effectContent.EffectCode);
}
effectContent.Identity = new ContentIdentity(tempPath);
var tempOutputPath = Path.GetTempFileName();
var debugContent = EffectCompilerHelper.Compile(
effectContent,
tempOutputPath,
platform,
true,
string.Empty);
var releaseContent = EffectCompilerHelper.Compile(
effectContent,
tempOutputPath,
platform,
false,
string.Empty);
using (var stream = new MemoryStream())
{
using (var writer = new BinaryWriter(stream))
{
// Magic flag that indicates new compiled effect format.
writer.Write((uint)0x12345678);
// Version 1 of new effect format.
writer.Write((uint)1);
var debugCode = debugContent.GetEffectCode();
var releaseCode = releaseContent.GetEffectCode();
writer.Write(debugCode.Length);
writer.Write(debugCode);
writer.Write(releaseCode.Length);
writer.Write(releaseCode);
var p = stream.Position;
var b = new byte[p];
stream.Seek(0, SeekOrigin.Begin);
stream.Read(b, 0, b.Length);
output.SetLoader <IAssetLoader <EffectAsset> >();
output.SetPlatform(platform);
output.SetByteArray("Data", b);
}
}
File.Delete(tempPath);
File.Delete(tempOutputPath);
}