private ToolchainInfo GenerateToolchainInfo(CppCompileEnvironment CompileEnvironment)
{
ToolchainInfo ToolchainInfo = new ToolchainInfo
{
CppStandard = CompileEnvironment.CppStandard,
Configuration = CompileEnvironment.Configuration.ToString(),
bEnableExceptions = CompileEnvironment.bEnableExceptions,
bOptimizeCode = CompileEnvironment.bOptimizeCode,
bUseInlining = CompileEnvironment.bUseInlining,
bUseUnity = CompileEnvironment.bUseUnity,
bCreateDebugInfo = CompileEnvironment.bCreateDebugInfo,
bIsBuildingLibrary = CompileEnvironment.bIsBuildingLibrary,
bUseAVX = CompileEnvironment.bUseAVX,
bIsBuildingDLL = CompileEnvironment.bIsBuildingDLL,
bUseDebugCRT = CompileEnvironment.bUseDebugCRT,
bUseRTTI = CompileEnvironment.bUseRTTI,
bUseStaticCRT = CompileEnvironment.bUseStaticCRT,
PrecompiledHeaderAction = CompileEnvironment.PrecompiledHeaderAction.ToString(),
PrecompiledHeaderFile = CompileEnvironment.PrecompiledHeaderFile?.ToString(),
ForceIncludeFiles = CompileEnvironment.ForceIncludeFiles.Select(Item => Item.ToString()).ToList()
};
if (CurrentTarget.Platform.IsInGroup(UnrealPlatformGroup.Windows))
{
ToolchainInfo.Architecture = WindowsExports.GetArchitectureSubpath(CurrentTarget.Rules.WindowsPlatform.Architecture);
WindowsCompiler WindowsPlatformCompiler = CurrentTarget.Rules.WindowsPlatform.Compiler;
ToolchainInfo.bStrictConformanceMode = WindowsPlatformCompiler >= WindowsCompiler.VisualStudio2017 && CurrentTarget.Rules.WindowsPlatform.bStrictConformanceMode;
ToolchainInfo.Compiler = WindowsPlatformCompiler.ToString();
}
else
{
string PlatformName = $"{CurrentTarget.Platform}Platform";
object Value = typeof(ReadOnlyTargetRules).GetProperty(PlatformName)?.GetValue(CurrentTarget.Rules);
object CompilerField = Value?.GetType().GetProperty("Compiler")?.GetValue(Value);
if (CompilerField != null)
{
ToolchainInfo.Compiler = CompilerField.ToString();
}
}
return(ToolchainInfo);
}
/// <summary>
/// Modify the rules for a newly created module, where the target is a different host platform.
/// This is not required - but allows for hiding details of a particular platform.
/// </summary>
/// <param name="ModuleName">The name of the module</param>
/// <param name="Rules">The module rules</param>
/// <param name="Target">The target being build</param>
public override void ModifyModuleRulesForOtherPlatform(string ModuleName, ModuleRules Rules, ReadOnlyTargetRules Target)
{
if (Target.Platform == UnrealTargetPlatform.Win64)
{
if (ProjectFileGenerator.bGenerateProjectFiles)
{
// Use latest SDK for Intellisense purposes
WindowsCompiler CompilerForSdkRestriction = Target.HoloLensPlatform.Compiler != WindowsCompiler.Default ? Target.HoloLensPlatform.Compiler : Target.WindowsPlatform.Compiler;
if (CompilerForSdkRestriction != WindowsCompiler.Default)
{
Version OutWin10SDKVersion;
DirectoryReference OutSdkDir;
if (WindowsExports.TryGetWindowsSdkDir(Target.HoloLensPlatform.Win10SDKVersionString, out OutWin10SDKVersion, out OutSdkDir))
{
Rules.PublicDefinitions.Add(string.Format("WIN10_SDK_VERSION={0}", OutWin10SDKVersion.Build));
}
}
}
}
}
/// <summary>
/// Modify the rules for a newly created module, where the target is a different host platform.
/// This is not required - but allows for hiding details of a particular platform.
/// </summary>
/// <param name="ModuleName">The name of the module</param>
/// <param name="Rules">The module rules</param>
/// <param name="Target">The target being build</param>
public override void ModifyModuleRulesForOtherPlatform(string ModuleName, ModuleRules Rules, ReadOnlyTargetRules Target)
{
// This code has been removed because it causes a full rebuild after generating project files (since response files are overwritten with different defines).
#if false
if (Target.Platform == UnrealTargetPlatform.Win64)
{
if (ProjectFileGenerator.bGenerateProjectFiles)
{
// Use latest SDK for Intellisense purposes
WindowsCompiler CompilerForSdkRestriction = Target.HoloLensPlatform.Compiler != WindowsCompiler.Default ? Target.HoloLensPlatform.Compiler : Target.WindowsPlatform.Compiler;
if (CompilerForSdkRestriction != WindowsCompiler.Default)
{
Version OutWin10SDKVersion;
DirectoryReference OutSdkDir;
if (WindowsExports.TryGetWindowsSdkDir(Target.HoloLensPlatform.Win10SDKVersionString, out OutWin10SDKVersion, out OutSdkDir))
{
Rules.PublicDefinitions.Add(string.Format("WIN10_SDK_VERSION={0}", OutWin10SDKVersion.Build));
}
}
}
}
#endif
}
public override bool PrepTargetForDeployment(TargetReceipt Receipt)
{
// Use the project name if possible - InTarget.AppName changes for 'Client'/'Server' builds
string ProjectName = Receipt.ProjectFile != null?Receipt.ProjectFile.GetFileNameWithoutAnyExtensions() : Receipt.Launch.GetFileNameWithoutExtension();
Log.TraceInformation("Prepping {0} for deployment to {1}", ProjectName, Receipt.Platform.ToString());
System.DateTime PrepDeployStartTime = DateTime.UtcNow;
// Note: TargetReceipt.Read now expands path variables internally.
TargetReceipt NewReceipt = null;
FileReference ReceiptFileName = TargetReceipt.GetDefaultPath(Receipt.ProjectDir != null ? Receipt.ProjectDir : UnrealBuildTool.EngineDirectory, Receipt.TargetName, Receipt.Platform, Receipt.Configuration, "Multi");
if (!TargetReceipt.TryRead(ReceiptFileName, UnrealBuildTool.EngineDirectory, out NewReceipt))
{
NewReceipt = new TargetReceipt(Receipt.ProjectFile, Receipt.TargetName, Receipt.TargetType, Receipt.Platform, Receipt.Configuration, Receipt.Version, "Multi");
}
AddWinMDReferencesFromReceipt(Receipt, Receipt.ProjectDir != null ? Receipt.ProjectDir : UnrealBuildTool.EngineDirectory, UnrealBuildTool.EngineDirectory.ParentDirectory.FullName);
//PrepForUATPackageOrDeploy(InTarget.ProjectFile, InAppName, InTarget.ProjectDirectory.FullName, InTarget.OutputPath.FullName, TargetBuildEnvironment.RelativeEnginePath, false, "", false);
List <UnrealTargetConfiguration> TargetConfigs = new List <UnrealTargetConfiguration> {
Receipt.Configuration
};
List <string> ExePaths = new List <string> {
Receipt.Launch.FullName
};
string RelativeEnginePath = UnrealBuildTool.EngineDirectory.MakeRelativeTo(DirectoryReference.GetCurrentDirectory());
WindowsArchitecture Arch = WindowsArchitecture.ARM64;
if (Receipt.Architecture.ToLower() == "x64")
{
Arch = WindowsArchitecture.x64;
}
string SDK = "";
var Results = Receipt.AdditionalProperties.Where(x => x.Name == "SDK");
if (Results.Any())
{
SDK = Results.First().Value;
}
HoloLensExports.InitWindowsSdkToolPath(SDK);
string AbsoluteExeDirectory = Path.GetDirectoryName(ExePaths[0]);
UnrealTargetPlatform Platform = UnrealTargetPlatform.HoloLens;
string IntermediateDirectory = Path.Combine(Receipt.ProjectDir != null ? Receipt.ProjectDir.FullName : UnrealBuildTool.EngineDirectory.FullName, "Intermediate", "Deploy", WindowsExports.GetArchitectureSubpath(Arch));
List <string> UpdatedFiles = new HoloLensManifestGenerator().CreateManifest(Platform, Arch, AbsoluteExeDirectory, IntermediateDirectory, Receipt.ProjectFile, Receipt.ProjectDir != null ? Receipt.ProjectDir.FullName : UnrealBuildTool.EngineDirectory.FullName, TargetConfigs, ExePaths, WinMDReferences);
PrepForUATPackageOrDeploy(Receipt.ProjectFile, ProjectName, Receipt.ProjectDir != null ? Receipt.ProjectDir.FullName : UnrealBuildTool.EngineDirectory.FullName, Arch, TargetConfigs, ExePaths, RelativeEnginePath, false, "", false);
MakePackage(Receipt, NewReceipt, Arch, UpdatedFiles);
CopyDataAndSymbolsBetweenReceipts(Receipt, NewReceipt, Arch);
NewReceipt.Write(ReceiptFileName, UnrealBuildTool.EngineDirectory);
// Log out the time taken to deploy...
double PrepDeployDuration = (DateTime.UtcNow - PrepDeployStartTime).TotalSeconds;
Log.TraceInformation("HoloLens deployment preparation took {0:0.00} seconds", PrepDeployDuration);
return(true);
}
private void MakePackage(TargetReceipt Receipt, TargetReceipt NewReceipt, WindowsArchitecture Architecture, List <string> UpdatedFiles)
{
string OutputName = String.Format("{0}_{1}_{2}_{3}", Receipt.TargetName, Receipt.Platform, Receipt.Configuration, WindowsExports.GetArchitectureSubpath(Architecture));
string IntermediateDirectory = Path.Combine(Receipt.ProjectDir != null ? Receipt.ProjectDir.FullName : UnrealBuildTool.EngineDirectory.FullName, "Intermediate", "Deploy", WindowsExports.GetArchitectureSubpath(Architecture));
string OutputDirectory = Receipt.Launch.Directory.FullName;
string OutputAppX = Path.Combine(OutputDirectory, OutputName + ".appx");
string SigningCertificate = @"Build\HoloLens\SigningCertificate.pfx";
string SigningCertificatePath = Path.Combine(Receipt.ProjectDir != null ? Receipt.ProjectDir.FullName : UnrealBuildTool.EngineDirectory.FullName, SigningCertificate);
string MapFilename = Path.Combine(IntermediateDirectory, OutputName + ".pkgmap");
var LocalRoot = Receipt.ProjectDir;
var EngineRoot = UnrealBuildTool.RootDirectory;
var AddedFiles = new Dictionary <string, string>();
bool PackageFileNeedToBeUpdated = !File.Exists(OutputAppX);
DateTime AppXTime = DateTime.Now;
PackageFileNeedToBeUpdated = true;
if (!PackageFileNeedToBeUpdated)
{
AppXTime = File.GetLastWriteTimeUtc(OutputAppX);
}
{
foreach (var Product in Receipt.BuildProducts)
{
if (Product.Type == BuildProductType.Executable || Product.Type == BuildProductType.DynamicLibrary || Product.Type == BuildProductType.RequiredResource)
{
string Filename;
if (AddedFiles.ContainsKey(Product.Path.FullName))
{
continue;
}
if (LocalRoot != null && Product.Path.IsUnderDirectory(LocalRoot))
{
Filename = Product.Path.MakeRelativeTo(LocalRoot.ParentDirectory);
}
else if (Product.Path.IsUnderDirectory(EngineRoot))
{
Filename = Product.Path.MakeRelativeTo(EngineRoot);
}
else
{
throw new BuildException("Failed to parse target receipt file. See log for details.");
}
AddedFiles.Add(Product.Path.FullName, Filename);
}
}
foreach (var Dep in Receipt.RuntimeDependencies)
{
if (Dep.Type == StagedFileType.NonUFS)
{
if (AddedFiles.ContainsKey(Dep.Path.FullName))
{
continue;
}
string Filename;
if (LocalRoot != null && Dep.Path.IsUnderDirectory(LocalRoot))
{
Filename = Dep.Path.MakeRelativeTo(LocalRoot.ParentDirectory);
}
else if (Dep.Path.IsUnderDirectory(EngineRoot))
{
Filename = Dep.Path.MakeRelativeTo(EngineRoot);
}
else
{
throw new BuildException("Failed to parse target receipt file. See log for details.");
}
AddedFiles.Add(Dep.Path.FullName, Filename);
}
}
}
string ManifestName = String.Format("AppxManifest_{0}.xml", WindowsExports.GetArchitectureSubpath(Architecture));
AddedFiles.Add(Path.Combine(OutputDirectory, ManifestName), "AppxManifest.xml");
//manually add resources
string PriFileName = String.Format("resources_{0}.pri", WindowsExports.GetArchitectureSubpath(Architecture));
AddedFiles.Add(Path.Combine(OutputDirectory, PriFileName), "resources.pri");
{
DirectoryReference ResourceFolder = DirectoryReference.Combine(Receipt.Launch.Directory, WindowsExports.GetArchitectureSubpath(Architecture));
foreach (var ResourcePath in UpdatedFiles)
{
var ResourceFile = new FileReference(ResourcePath);
if (ResourceFile.IsUnderDirectory(ResourceFolder))
{
AddedFiles.Add(ResourceFile.FullName, ResourceFile.MakeRelativeTo(ResourceFolder));
}
else
{
Log.TraceError("Wrong path to resource \'{0}\', the resource should be in \'{1}\'", ResourceFile.FullName, ResourceFolder.FullName);
throw new BuildException("Failed to generate AppX file. See log for details.");
}
}
}
FileReference SourceNetworkManifestPath = new FileReference(Path.Combine(OutputDirectory, "NetworkManifest.xml"));
if (FileReference.Exists(SourceNetworkManifestPath))
{
AddedFiles.Add(SourceNetworkManifestPath.FullName, "NetworkManifest.xml");
}
FileReference SourceXboxConfigPath = new FileReference(Path.Combine(OutputDirectory, "xboxservices.config"));
if (FileReference.Exists(SourceXboxConfigPath))
{
AddedFiles.Add(SourceXboxConfigPath.FullName, "xboxservices.config");
}
do
{
if (PackageFileNeedToBeUpdated)
{
break;
}
if (!File.Exists(MapFilename))
{
PackageFileNeedToBeUpdated = true;
break;
}
string[] lines = File.ReadAllLines(MapFilename, Encoding.UTF8);
int filesCount = 0;
foreach (var line in lines)
{
if (line[0] == '[')
{
continue;
}
string[] files = line.Split('\t');
if (files.Length != 2)
{
PackageFileNeedToBeUpdated = true;
break;
}
files[0] = files[0].Trim('\"');
files[1] = files[1].Trim('\"');
if (!AddedFiles.ContainsKey(files[0]))
{
PackageFileNeedToBeUpdated = true;
break;
}
if (AddedFiles[files[0]] != files[1])
{
PackageFileNeedToBeUpdated = true;
break;
}
if (File.GetLastWriteTimeUtc(files[0]).CompareTo(AppXTime) >= 0)
{
PackageFileNeedToBeUpdated = true;
break;
}
++filesCount;
}
if (PackageFileNeedToBeUpdated)
{
break;
}
if (filesCount != AddedFiles.Count)
{
PackageFileNeedToBeUpdated = true;
break;
}
if (File.Exists(SigningCertificatePath) && File.GetLastWriteTimeUtc(SigningCertificatePath).CompareTo(AppXTime) >= 0)
{
PackageFileNeedToBeUpdated = true;
break;
}
}while(false);
if (!PackageFileNeedToBeUpdated)
{
NewReceipt.BuildProducts.Add(new BuildProduct(new FileReference(OutputAppX), BuildProductType.Package));
return;
}
try
{
DeployHelper_DeleteFile(OutputAppX);
}
catch (Exception exceptionMessage)
{
Log.TraceError("Failed to delete {0} from deployment: {1}", OutputAppX, exceptionMessage);
throw new BuildException("Failed to generate AppX file. See log for details.");
}
var AppXRecipeBuiltFiles = new StringBuilder();
AppXRecipeBuiltFiles.AppendLine(@"[Files]");
foreach (var f in AddedFiles)
{
AppXRecipeBuiltFiles.AppendLine(String.Format("\"{0}\"\t\"{1}\"", f.Key, f.Value));
}
File.WriteAllText(MapFilename, AppXRecipeBuiltFiles.ToString(), Encoding.UTF8);
NewReceipt.BuildProducts.Add(new BuildProduct(new FileReference(MapFilename), BuildProductType.MapFile));
}
/// <summary>
/// Sets up the standard compile environment for the toolchain
/// </summary>
private void SetupEnvironment(UnrealTargetPlatform Platform)
{
// Add the standard Visual C++ include paths
IncludePaths.Add(DirectoryReference.Combine(ToolChainDir, "INCLUDE"));
string ArchFolder = WindowsExports.GetArchitectureSubpath(Architecture);
// Add the standard Visual C++ library paths
if (ToolChain >= WindowsCompiler.VisualStudio2017)
{
if (Platform == UnrealTargetPlatform.HoloLens)
{
LibraryPaths.Add(DirectoryReference.Combine(ToolChainDir, "lib", ArchFolder, "store"));
}
else
{
LibraryPaths.Add(DirectoryReference.Combine(ToolChainDir, "lib", ArchFolder));
}
}
else
{
DirectoryReference LibsPath = DirectoryReference.Combine(ToolChainDir, "LIB");
if (Platform == UnrealTargetPlatform.HoloLens)
{
LibsPath = DirectoryReference.Combine(LibsPath, "store");
}
if (Architecture == WindowsArchitecture.x64)
{
LibsPath = DirectoryReference.Combine(LibsPath, "amd64");
}
else if (Architecture == WindowsArchitecture.ARM32)
{
LibsPath = DirectoryReference.Combine(LibsPath, "arm");
}
LibraryPaths.Add(LibsPath);
}
// If we're on Visual Studio 2015 and using pre-Windows 10 SDK, we need to find a Windows 10 SDK and add the UCRT include paths
if (ToolChain >= WindowsCompiler.VisualStudio2015_DEPRECATED && WindowsSdkVersion < new VersionNumber(10))
{
KeyValuePair <VersionNumber, DirectoryReference> Pair = WindowsPlatform.FindUniversalCrtDirs().OrderByDescending(x => x.Key).FirstOrDefault();
if (Pair.Key == null || Pair.Key < new VersionNumber(10))
{
throw new BuildException("{0} requires the Universal CRT to be installed.", WindowsPlatform.GetCompilerName(ToolChain));
}
DirectoryReference IncludeRootDir = DirectoryReference.Combine(Pair.Value, "include", Pair.Key.ToString());
IncludePaths.Add(DirectoryReference.Combine(IncludeRootDir, "ucrt"));
DirectoryReference LibraryRootDir = DirectoryReference.Combine(Pair.Value, "lib", Pair.Key.ToString());
LibraryPaths.Add(DirectoryReference.Combine(LibraryRootDir, "ucrt", ArchFolder));
}
// Add the NETFXSDK include path. We need this for SwarmInterface.
DirectoryReference NetFxSdkDir;
if (WindowsPlatform.TryGetNetFxSdkInstallDir(out NetFxSdkDir))
{
IncludePaths.Add(DirectoryReference.Combine(NetFxSdkDir, "include", "um"));
LibraryPaths.Add(DirectoryReference.Combine(NetFxSdkDir, "lib", "um", ArchFolder));
}
// Add the Windows SDK paths
if (WindowsSdkVersion >= new VersionNumber(10))
{
DirectoryReference IncludeRootDir = DirectoryReference.Combine(WindowsSdkDir, "include", WindowsSdkVersion.ToString());
IncludePaths.Add(DirectoryReference.Combine(IncludeRootDir, "ucrt"));
IncludePaths.Add(DirectoryReference.Combine(IncludeRootDir, "shared"));
IncludePaths.Add(DirectoryReference.Combine(IncludeRootDir, "um"));
IncludePaths.Add(DirectoryReference.Combine(IncludeRootDir, "winrt"));
DirectoryReference LibraryRootDir = DirectoryReference.Combine(WindowsSdkDir, "lib", WindowsSdkVersion.ToString());
LibraryPaths.Add(DirectoryReference.Combine(LibraryRootDir, "ucrt", ArchFolder));
LibraryPaths.Add(DirectoryReference.Combine(LibraryRootDir, "um", ArchFolder));
}
else
{
DirectoryReference IncludeRootDir = DirectoryReference.Combine(WindowsSdkDir, "include");
IncludePaths.Add(DirectoryReference.Combine(IncludeRootDir, "shared"));
IncludePaths.Add(DirectoryReference.Combine(IncludeRootDir, "um"));
IncludePaths.Add(DirectoryReference.Combine(IncludeRootDir, "winrt"));
DirectoryReference LibraryRootDir = DirectoryReference.Combine(WindowsSdkDir, "lib", "winv6.3");
LibraryPaths.Add(DirectoryReference.Combine(LibraryRootDir, "um", ArchFolder));
}
}
/// <summary>
/// Gets the path to the tool binaries.
/// </summary>
/// <param name="Compiler">The compiler version</param>
/// <param name="VCToolChainDir">Base directory for the VC toolchain</param>
/// <param name="Architecture">Target Architecture</param>
/// <returns>Directory containing the 32-bit toolchain binaries</returns>
static DirectoryReference GetVCToolPath(WindowsCompiler Compiler, DirectoryReference VCToolChainDir, WindowsArchitecture Architecture)
{
if (Compiler >= WindowsCompiler.VisualStudio2017)
{
FileReference NativeCompilerPath = FileReference.Combine(VCToolChainDir, "bin", "HostX64", WindowsExports.GetArchitectureSubpath(Architecture), "cl.exe");
if (FileReference.Exists(NativeCompilerPath))
{
return(NativeCompilerPath.Directory);
}
FileReference CrossCompilerPath = FileReference.Combine(VCToolChainDir, "bin", "HostX86", WindowsExports.GetArchitectureSubpath(Architecture), "cl.exe");
if (FileReference.Exists(CrossCompilerPath))
{
return(CrossCompilerPath.Directory);
}
}
else
{
if (Architecture == WindowsArchitecture.x86)
{
FileReference CompilerPath = FileReference.Combine(VCToolChainDir, "bin", "cl.exe");
if (FileReference.Exists(CompilerPath))
{
return(CompilerPath.Directory);
}
}
else if (Architecture == WindowsArchitecture.x64)
{
// Use the native 64-bit compiler if present
FileReference NativeCompilerPath = FileReference.Combine(VCToolChainDir, "bin", "amd64", "cl.exe");
if (FileReference.Exists(NativeCompilerPath))
{
return(NativeCompilerPath.Directory);
}
// Otherwise use the amd64-on-x86 compiler. VS2012 Express only includes the latter.
FileReference CrossCompilerPath = FileReference.Combine(VCToolChainDir, "bin", "x86_amd64", "cl.exe");
if (FileReference.Exists(CrossCompilerPath))
{
return(CrossCompilerPath.Directory);
}
}
else if (Architecture == WindowsArchitecture.ARM32)
{
// Use the native 64-bit compiler if present
FileReference NativeCompilerPath = FileReference.Combine(VCToolChainDir, "bin", "amd64_arm", "cl.exe");
if (FileReference.Exists(NativeCompilerPath))
{
return(NativeCompilerPath.Directory);
}
// Otherwise use the amd64-on-x86 compiler. VS2012 Express only includes the latter.
FileReference CrossCompilerPath = FileReference.Combine(VCToolChainDir, "bin", "x86_arm", "cl.exe");
if (FileReference.Exists(CrossCompilerPath))
{
return(CrossCompilerPath.Directory);
}
}
}
throw new BuildException("No required compiler toolchain found in {0}", VCToolChainDir);
}
/// <summary>
/// Setup the target environment for building
/// </summary>
/// <param name="Target">Settings for the target being compiled</param>
/// <param name="CompileEnvironment">The compile environment for this target</param>
/// <param name="LinkEnvironment">The link environment for this target</param>
public override void SetUpEnvironment(ReadOnlyTargetRules Target, CppCompileEnvironment CompileEnvironment, LinkEnvironment LinkEnvironment)
{
// Add Win10 SDK pieces - moved here since it allows better control over SDK version
string Win10SDKRoot = Target.WindowsPlatform.WindowsSdkDir;
// Include paths
CompileEnvironment.SystemIncludePaths.Add(new DirectoryReference(string.Format(@"{0}\Include\{1}\ucrt", Win10SDKRoot, Target.HoloLensPlatform.Win10SDKVersion)));
CompileEnvironment.SystemIncludePaths.Add(new DirectoryReference(string.Format(@"{0}\Include\{1}\um", Win10SDKRoot, Target.HoloLensPlatform.Win10SDKVersion)));
CompileEnvironment.SystemIncludePaths.Add(new DirectoryReference(string.Format(@"{0}\Include\{1}\shared", Win10SDKRoot, Target.HoloLensPlatform.Win10SDKVersion)));
CompileEnvironment.SystemIncludePaths.Add(new DirectoryReference(string.Format(@"{0}\Include\{1}\winrt", Win10SDKRoot, Target.HoloLensPlatform.Win10SDKVersion)));
// Library paths
// @MIXEDREALITY_CHANGE : BEGIN TODO: change to arm.
string LibArchitecture = WindowsExports.GetArchitectureSubpath(Target.HoloLensPlatform.Architecture);
LinkEnvironment.SystemLibraryPaths.Add(new DirectoryReference(string.Format(@"{0}\Lib\{1}\ucrt\{2}", Win10SDKRoot, Target.HoloLensPlatform.Win10SDKVersion, LibArchitecture)));
LinkEnvironment.SystemLibraryPaths.Add(new DirectoryReference(string.Format(@"{0}\Lib\{1}\um\{2}", Win10SDKRoot, Target.HoloLensPlatform.Win10SDKVersion, LibArchitecture)));
// Reference (WinMD) paths
// Only Foundation and Universal are referenced by default.
List <string> AlwaysReferenceContracts = new List <string>();
AlwaysReferenceContracts.Add("Windows.Foundation.FoundationContract");
AlwaysReferenceContracts.Add("Windows.Foundation.UniversalApiContract");
ExpandWinMDReferences(Target, Win10SDKRoot, Target.HoloLensPlatform.Win10SDKVersion.ToString(), ref AlwaysReferenceContracts);
StringBuilder WinMDReferenceArguments = new StringBuilder();
foreach (string WinMDReference in AlwaysReferenceContracts)
{
WinMDReferenceArguments.AppendFormat(@" /FU""{0}""", WinMDReference);
}
CompileEnvironment.AdditionalArguments += WinMDReferenceArguments;
CompileEnvironment.Definitions.Add("EXCEPTIONS_DISABLED=0");
CompileEnvironment.Definitions.Add("_WIN32_WINNT=0x0A00");
CompileEnvironment.Definitions.Add("WINVER=0x0A00");
CompileEnvironment.Definitions.Add("PLATFORM_HOLOLENS=1");
CompileEnvironment.Definitions.Add("HOLOLENS=1");
CompileEnvironment.Definitions.Add("WINAPI_FAMILY=WINAPI_FAMILY_APP");
CompileEnvironment.Definitions.Add("PLATFORM_MICROSOFT=1");
// No D3DX on HoloLens!
CompileEnvironment.Definitions.Add("NO_D3DX_LIBS=1");
if (Target.HoloLensPlatform.bBuildForRetailWindowsStore)
{
CompileEnvironment.Definitions.Add("USING_RETAIL_WINDOWS_STORE=1");
}
else
{
CompileEnvironment.Definitions.Add("USING_RETAIL_WINDOWS_STORE=0");
}
CompileEnvironment.Definitions.Add("WITH_D3D12_RHI=0");
LinkEnvironment.AdditionalArguments += "/NODEFAULTLIB";
//CompileEnvironment.AdditionalArguments += " /showIncludes";
LinkEnvironment.SystemLibraries.Add("windowsapp.lib");
CompileEnvironment.Definitions.Add(string.Format("WIN10_SDK_VERSION={0}", Target.HoloLensPlatform.Win10SDKVersion.Build));
LinkEnvironment.SystemLibraries.Add("dloadhelper.lib");
LinkEnvironment.SystemLibraries.Add("ws2_32.lib");
if (CompileEnvironment.bUseDebugCRT)
{
LinkEnvironment.SystemLibraries.Add("vccorlibd.lib");
LinkEnvironment.SystemLibraries.Add("ucrtd.lib");
LinkEnvironment.SystemLibraries.Add("vcruntimed.lib");
LinkEnvironment.SystemLibraries.Add("msvcrtd.lib");
LinkEnvironment.SystemLibraries.Add("msvcprtd.lib");
}
else
{
LinkEnvironment.SystemLibraries.Add("vccorlib.lib");
LinkEnvironment.SystemLibraries.Add("ucrt.lib");
LinkEnvironment.SystemLibraries.Add("vcruntime.lib");
LinkEnvironment.SystemLibraries.Add("msvcrt.lib");
LinkEnvironment.SystemLibraries.Add("msvcprt.lib");
}
LinkEnvironment.SystemLibraries.Add("legacy_stdio_wide_specifiers.lib");
LinkEnvironment.SystemLibraries.Add("uuid.lib");
}
