public Task TryConnect(int port)
{
socketContext = new SocketContext();
clientConnectedTCS = new TaskCompletionSource<bool>();
socketContext.Connected = (clientSocketContext) =>
{
// Create an effect compiler per connection
var effectCompiler = new EffectCompiler();
var tempFilename = Path.GetTempFileName();
var fileStream = new FileStream(tempFilename, FileMode.OpenOrCreate, FileAccess.ReadWrite, FileShare.ReadWrite);
// TODO: Properly close the file, and choose where to copy/move it?
var recordedEffectCompile = new EffectLogStore(fileStream);
// TODO: This should come from an "init" packet
effectCompiler.SourceDirectories.Add(EffectCompilerBase.DefaultSourceShaderFolder);
// Make a VFS that will access remotely the DatabaseFileProvider
// TODO: Is that how we really want to do that in the future?
var networkVFS = new NetworkVirtualFileProvider(clientSocketContext, "/asset");
VirtualFileSystem.RegisterProvider(networkVFS);
effectCompiler.FileProvider = networkVFS;
clientSocketContext.AddPacketHandler<ShaderCompilerRequest>((packet) => ShaderCompilerRequestHandler(clientSocketContext, recordedEffectCompile, effectCompiler, packet));
clientConnectedTCS.TrySetResult(true);
};
// Wait for a connection to be possible on adb forwarded port
var clientDone = socketContext.StartClient(IPAddress.Loopback, port);
return clientDone;
}
public void Init()
{
// Create and mount database file system
var objDatabase = new ObjectDatabase("/data/db", "index", "/local/db");
var databaseFileProvider = new DatabaseFileProvider(objDatabase);
AssetManager.GetFileProvider = () => databaseFileProvider;
Compiler = new EffectCompiler();
Compiler.SourceDirectories.Add("shaders");
MixinParameters = new ShaderMixinParameters();
MixinParameters.Add(CompilerParameters.GraphicsPlatformKey, GraphicsPlatform.Direct3D11);
MixinParameters.Add(CompilerParameters.GraphicsProfileKey, GraphicsProfile.Level_11_0);
ResultLogger = new LoggerResult();
}
private async void ShaderCompilerRequestHandler(SocketContext clientSocketContext, EffectLogStore recordedEffectCompile, EffectCompiler effectCompiler, ShaderCompilerRequest shaderCompilerRequest)
{
// Wait for a client to be connected
await clientConnectedTCS.Task;
// Yield so that this socket can continue its message loop to answer to shader file request.
await Task.Yield();
Console.WriteLine("Compiling shader");
// A shader has been requested, compile it (asynchronously)!
var precompiledEffectShaderPass = await effectCompiler.Compile(shaderCompilerRequest.MixinTree, null).AwaitResult();
// Record compilation to asset file (only if parent)
recordedEffectCompile[new EffectCompileRequest(shaderCompilerRequest.MixinTree.Name, shaderCompilerRequest.MixinTree.UsedParameters)] = true;
// Send compiled shader
clientSocketContext.Send(new ShaderCompilerAnswer { StreamId = shaderCompilerRequest.StreamId, EffectBytecode = precompiledEffectShaderPass.Bytecode });
}
public static void Main3()
{
// Create and mount database file system
var objDatabase = ObjectDatabase.CreateDefaultDatabase();
var assetIndexMap = AssetIndexMap.Load(VirtualFileSystem.ApplicationDatabaseIndexPath);
var databaseFileProvider = new DatabaseFileProvider(assetIndexMap, objDatabase);
AssetManager.GetFileProvider = () => databaseFileProvider;
compiler = new EffectCompiler();
compiler.SourceDirectories.Add("shaders");
var shaderMixinSource = new ShaderMixinSource();
shaderMixinSource.Mixins.Add(new ShaderClassSource("ShaderBase"));
shaderMixinSource.Mixins.Add(new ShaderClassSource("TransformationWVP"));
shaderMixinSource.Mixins.Add(new ShaderClassSource("ShadingBase"));
var shaderMixinSource2 = new ShaderMixinSource();
shaderMixinSource2.Mixins.Add(new ShaderClassSource("ShaderBase"));
shaderMixinSource2.Mixins.Add(new ShaderClassSource("TransformationWVP"));
shaderMixinSource2.Mixins.Add(new ShaderClassSource("ShadingBase"));
shaderMixinSource2.Mixins.Add(new ShaderClassSource("ShadingOverlay"));
var allThreads = new List<Thread>();
for (int i = 0; i < NumThreads; ++i)
{
CompilerThread compilerThread;
if (i % 2 == 0)
compilerThread = new CompilerThread(compiler, shaderMixinSource);
else
compilerThread = new CompilerThread(compiler, shaderMixinSource2);
allThreads.Add(new Thread(compilerThread.Compile));
}
foreach (var thread in allThreads)
{
thread.Start();
}
}
public void TestMaterial()
{
var compiler = new EffectCompiler { UseFileSystem = true };
compiler.SourceDirectories.Add(@"..\..\sources\engine\SiliconStudio.Paradox.Graphics\Shaders");
compiler.SourceDirectories.Add(@"..\..\sources\engine\SiliconStudio.Paradox.Engine\Shaders");
compiler.SourceDirectories.Add(@"..\..\sources\shaders\Core");
compiler.SourceDirectories.Add(@"..\..\sources\shaders\Lights");
compiler.SourceDirectories.Add(@"..\..\sources\shaders\Materials");
compiler.SourceDirectories.Add(@"..\..\sources\shaders\Shadows");
compiler.SourceDirectories.Add(@"..\..\sources\shaders\ComputeColor");
compiler.SourceDirectories.Add(@"..\..\sources\shaders\Skinning");
compiler.SourceDirectories.Add(@"..\..\sources\shaders\Shading");
compiler.SourceDirectories.Add(@"..\..\sources\shaders\Transformation");
compiler.SourceDirectories.Add(@"..\..\sources\shaders\Utils");
var compilerParameters = new CompilerParameters { Platform = GraphicsPlatform.Direct3D11 };
var layers = new MaterialBlendLayers();
layers.Add(new MaterialBlendLayer
{
BlendMap = new ComputeFloat(0.5f),
Material = AttachedReferenceManager.CreateSerializableVersion<Material>(Guid.Empty, "fake")
});
var materialAsset = new MaterialAsset
{
Attributes = new MaterialAttributes()
{
Diffuse = new MaterialDiffuseMapFeature()
{
DiffuseMap = new ComputeColor(Color4.White)
},
DiffuseModel = new MaterialDiffuseLambertModelFeature()
},
Layers = layers
};
var fakeAsset = new MaterialAsset
{
Attributes = new MaterialAttributes()
{
Diffuse = new MaterialDiffuseMapFeature()
{
DiffuseMap = new ComputeColor(Color.Blue)
},
}
};
var context = new MaterialGeneratorContext { FindAsset = reference => fakeAsset };
var result = MaterialGenerator.Generate(new MaterialDescriptor { Attributes = materialAsset.Attributes, Layers = materialAsset.Layers }, context, "TestMaterial");
compilerParameters.Set(MaterialKeys.PixelStageSurfaceShaders, result.Material.Parameters.Get(MaterialKeys.PixelStageSurfaceShaders));
var directionalLightGroup = new ShaderClassSource("LightDirectionalGroup", 1);
compilerParameters.Set(LightingKeys.DirectLightGroups, new List<ShaderSource> { directionalLightGroup });
//compilerParameters.Set(LightingKeys.CastShadows, false);
//compilerParameters.Set(MaterialParameters.HasSkinningPosition, true);
//compilerParameters.Set(MaterialParameters.HasSkinningNormal, true);
compilerParameters.Set(MaterialKeys.HasNormalMap, true);
var results = compiler.Compile(new ShaderMixinGeneratorSource("ParadoxEffectBase"), compilerParameters);
Assert.IsFalse(results.HasErrors);
}
public void TestGlslESCompiler()
{
VirtualFileSystem.RemountFileSystem("/shaders", "../../../../shaders");
VirtualFileSystem.RemountFileSystem("/baseShaders", "../../../../engine/SiliconStudio.Paradox.Graphics/Shaders");
VirtualFileSystem.RemountFileSystem("/compiler", "Compiler");
var compiler = new EffectCompiler();
compiler.SourceDirectories.Add("shaders");
compiler.SourceDirectories.Add("compiler");
compiler.SourceDirectories.Add("baseShaders");
var compilerParameters = new CompilerParameters { Platform = GraphicsPlatform.OpenGLES };
var results = compiler.Compile(new ShaderMixinGeneratorSource("ToGlslEffect"), compilerParameters);
}
public void TestNoClean(out CompilerResults left, out CompilerResults right)
{
// Create and mount database file system
var objDatabase = ObjectDatabase.CreateDefaultDatabase();
using (var assetIndexMap = AssetIndexMap.Load(VirtualFileSystem.ApplicationDatabaseIndexPath))
{
var database = new DatabaseFileProvider(assetIndexMap, objDatabase);
AssetManager.GetFileProvider = () => database;
foreach (var shaderName in Directory.EnumerateFiles(@"..\..\sources\shaders", "*.pdxsl"))
CopyStream(database, shaderName);
foreach (var shaderName in Directory.EnumerateFiles(@"..\..\sources\engine\SiliconStudio.Paradox.Shaders.Tests\GameAssets\Compiler", "*.pdxsl"))
CopyStream(database, shaderName);
var compiler = new EffectCompiler();
compiler.SourceDirectories.Add("assets/shaders");
var compilerCache = new EffectCompilerCache(compiler);
var compilerParameters = new CompilerParameters {Platform = GraphicsPlatform.Direct3D11};
left = compilerCache.Compile(new ShaderMixinGeneratorSource("SimpleEffect"), compilerParameters);
right = compilerCache.Compile(new ShaderMixinGeneratorSource("SimpleEffect"), compilerParameters);
}
}
public void TestMixinAndComposeKeys()
{
var compiler = new EffectCompiler { UseFileSystem = true };
compiler.SourceDirectories.Add(@"..\..\sources\engine\SiliconStudio.Paradox.Graphics\Shaders");
compiler.SourceDirectories.Add(@"..\..\sources\engine\SiliconStudio.Paradox.Shaders.Tests\GameAssets\Mixins");
var compilerParameters = new CompilerParameters {Platform = GraphicsPlatform.Direct3D11};
var subCompute1Key = TestABC.TestParameters.UseComputeColor2.ComposeWith("SubCompute1");
var subCompute2Key = TestABC.TestParameters.UseComputeColor2.ComposeWith("SubCompute2");
var subComputesKey = TestABC.TestParameters.UseComputeColorRedirect.ComposeWith("SubComputes[0]");
compilerParameters.Set(subCompute1Key, true);
compilerParameters.Set(subComputesKey, true);
var results = compiler.Compile(new ShaderMixinGeneratorSource("test_mixin_compose_keys"), compilerParameters);
Assert.IsFalse(results.HasErrors);
var mainBytecode = results.Bytecode.WaitForResult();
Assert.IsFalse(mainBytecode.CompilationLog.HasErrors);
Assert.NotNull(mainBytecode.Bytecode.Reflection.ConstantBuffers);
Assert.AreEqual(1, mainBytecode.Bytecode.Reflection.ConstantBuffers.Count);
var cbuffer = mainBytecode.Bytecode.Reflection.ConstantBuffers[0];
Assert.NotNull(cbuffer.Members);
Assert.AreEqual(2, cbuffer.Members.Length);
// Check that ComputeColor2.Color is correctly composed for variables
var computeColorSubCompute2 = ComputeColor2Keys.Color.ComposeWith("SubCompute1");
var computeColorSubComputes = ComputeColor2Keys.Color.ComposeWith("ColorRedirect.SubComputes[0]");
var members = cbuffer.Members.Select(member => member.Param.KeyName).ToList();
Assert.IsTrue(members.Contains(computeColorSubCompute2.Name));
Assert.IsTrue(members.Contains(computeColorSubComputes.Name));
}
public void TestStream()
{
var compiler = new EffectCompiler { UseFileSystem = true };
compiler.SourceDirectories.Add(@"..\..\sources\engine\SiliconStudio.Paradox.Shaders.Tests\GameAssets\Compiler");
compiler.SourceDirectories.Add(@"..\..\sources\engine\SiliconStudio.Paradox.Graphics\Shaders");
compiler.SourceDirectories.Add(@"..\..\sources\engine\SiliconStudio.Paradox.Engine\Shaders");
compiler.SourceDirectories.Add(@"..\..\sources\shaders\Core");
compiler.SourceDirectories.Add(@"..\..\sources\shaders\Lights");
compiler.SourceDirectories.Add(@"..\..\sources\shaders\Materials");
compiler.SourceDirectories.Add(@"..\..\sources\shaders\Shadows");
compiler.SourceDirectories.Add(@"..\..\sources\shaders\ComputeColor");
compiler.SourceDirectories.Add(@"..\..\sources\shaders\Skinning");
compiler.SourceDirectories.Add(@"..\..\sources\shaders\Shading");
compiler.SourceDirectories.Add(@"..\..\sources\shaders\Transformation");
compiler.SourceDirectories.Add(@"..\..\sources\shaders\Utils");
var compilerParameters = new CompilerParameters { Platform = GraphicsPlatform.Direct3D11 };
var results = compiler.Compile(new ShaderClassSource("TestStream"), compilerParameters);
Assert.IsFalse(results.HasErrors);
}
/// <inheritdoc/>
protected override async void HandleClient(SimpleSocket clientSocket, string url)
{
string[] urlSegments;
string urlParameters;
RouterHelper.ParseUrl(url, out urlSegments, out urlParameters);
var parameters = RouterHelper.ParseQueryString(urlParameters);
var mode = parameters["mode"];
// We accept everything
await AcceptConnection(clientSocket);
var socketMessageLayer = new SocketMessageLayer(clientSocket, true);
Guid? packageId = null;
{
Guid packageIdParsed;
if (Guid.TryParse(parameters["packageid"], out packageIdParsed))
packageId = packageIdParsed;
}
if (mode == "gamestudio")
{
Console.WriteLine("GameStudio mode started!");
if (!packageId.HasValue)
return;
lock (gameStudioPerPackageId)
{
gameStudioPerPackageId[packageId.Value] = socketMessageLayer;
}
}
else
{
// Create an effect compiler per connection
var effectCompiler = new EffectCompiler();
Console.WriteLine("Client connected");
// TODO: Properly close the file, and choose where to copy/move it?
var recordedEffectCompile = new EffectLogStore(new MemoryStream());
// TODO: This should come from an "init" packet
effectCompiler.SourceDirectories.Add(EffectCompilerBase.DefaultSourceShaderFolder);
// Make a VFS that will access remotely the DatabaseFileProvider
// TODO: Is that how we really want to do that in the future?
var networkVFS = new NetworkVirtualFileProvider(socketMessageLayer, "/asset");
VirtualFileSystem.RegisterProvider(networkVFS);
effectCompiler.FileProvider = networkVFS;
socketMessageLayer.AddPacketHandler<RemoteEffectCompilerEffectRequest>((packet) => ShaderCompilerRequestHandler(socketMessageLayer, recordedEffectCompile, effectCompiler, packet));
socketMessageLayer.AddPacketHandler<RemoteEffectCompilerEffectRequested>((packet) =>
{
if (!packageId.HasValue)
return;
SocketMessageLayer gameStudio;
lock (gameStudioPerPackageId)
{
if (!gameStudioPerPackageId.TryGetValue(packageId.Value, out gameStudio))
return;
}
// Forward to game studio
gameStudio.Send(packet);
});
}
Task.Run(() => socketMessageLayer.MessageLoop());
}
private static async Task ShaderCompilerRequestHandler(SocketMessageLayer socketMessageLayer, EffectLogStore recordedEffectCompile, EffectCompiler effectCompiler, RemoteEffectCompilerEffectRequest remoteEffectCompilerEffectRequest)
{
// Yield so that this socket can continue its message loop to answer to shader file request
// TODO: maybe not necessary anymore with RouterServiceServer?
await Task.Yield();
Console.WriteLine("Compiling shader");
// Restore MixinTree.UsedParameters (since it is DataMemberIgnore)
remoteEffectCompilerEffectRequest.MixinTree.UsedParameters = remoteEffectCompilerEffectRequest.UsedParameters;
// A shader has been requested, compile it (asynchronously)!
var precompiledEffectShaderPass = await effectCompiler.Compile(remoteEffectCompilerEffectRequest.MixinTree, null).AwaitResult();
// Record compilation to asset file (only if parent)
recordedEffectCompile[new EffectCompileRequest(remoteEffectCompilerEffectRequest.MixinTree.Name, remoteEffectCompilerEffectRequest.MixinTree.UsedParameters)] = true;
// Send compiled shader
socketMessageLayer.Send(new RemoteEffectCompilerEffectAnswer { StreamId = remoteEffectCompilerEffectRequest.StreamId, EffectBytecode = precompiledEffectShaderPass.Bytecode });
}
public void TestShaderCompilation()
{
var generics = new string[3];
generics[0] = "Texturing.Texture1";
generics[1] = "TEXCOORD0";
generics[2] = "float4(2.0,1,1,1)";
var compilerParameters = new ShaderMixinParameters();
compilerParameters.Set(EffectSourceCodeKeys.Enable, true);
compilerParameters.Set(CompilerParameters.GraphicsProfileKey, GraphicsProfile.Level_11_0);
var mixinSource = new ShaderMixinSource { Name = "TestShaderCompilationGenericClass", UsedParameters = compilerParameters };
mixinSource.Mixins.Add(new ShaderClassSource("GenericClass2", generics));
var log = new CompilerResults();
var compiler = new EffectCompiler();
compiler.SourceDirectories.Add("shaders");
var effectByteCode = compiler.Compile(mixinSource, new CompilerParameters());
}
public CompilerThread(EffectCompiler compiler, ShaderMixinSource source)
{
effectCompiler = compiler;
mixinSource = source;
}
