private static string GetMsBuildExe(TargetPlatformData TargetData)
{
if (TargetData.Platform == UnrealTargetPlatform.Win64)
{
return(MsBuildExe.ToString());
}
throw new AutomationException(String.Format("Non-MSBuild or unsupported platform '{0}' supplied to GetMsBuildExe", TargetData.ToString()));
}
private static string GetPlatformLibExtension(TargetPlatformData TargetData)
{
if (TargetData.Platform == UnrealTargetPlatform.Win64)
{
return("lib");
}
else if (TargetData.Platform == UnrealTargetPlatform.Linux || TargetData.Platform == UnrealTargetPlatform.Mac)
{
return("a");
}
throw new AutomationException(String.Format("No lib extension for platform '{0}'", TargetData.Platform.ToString()));
}
private void CopyLibsToFinalDestination(TargetPlatformData TargetData, List <string> TargetConfigurations, WindowsCompiler TargetWindowsCompiler = WindowsCompiler.VisualStudio2015_DEPRECATED)
{
foreach (string TargetConfiguration in TargetConfigurations)
{
DirectoryReference OutputLibPath = GetPlatformLibDirectory(TargetData, TargetWindowsCompiler);
string OutputLibName = "";
if (TargetData.Platform == UnrealTargetPlatform.Linux || TargetData.Platform == UnrealTargetPlatform.Mac)
{
OutputLibName = "lib";
}
OutputLibName += "hlslcc";
if (TargetConfiguration == "Debug")
{
OutputLibName += "d";
}
if (TargetData.Platform == UnrealTargetPlatform.Win64)
{
OutputLibName += "_64";
}
OutputLibName += "." + GetPlatformLibExtension(TargetData);
DirectoryReference ProjectDirectory = GetProjectDirectory(TargetData, TargetWindowsCompiler);
string SourceFileName = "";
if (TargetData.Platform == UnrealTargetPlatform.Win64)
{
SourceFileName = "hlslcc.lib";
}
else if (TargetData.Platform == UnrealTargetPlatform.Linux || TargetData.Platform == UnrealTargetPlatform.Mac)
{
SourceFileName = "libhlslcc.a";
}
FileReference SourceFile = FileReference.Combine(ProjectDirectory, TargetConfiguration, SourceFileName);
FileReference DestFile = FileReference.Combine(OutputLibPath, OutputLibName);
FileReference.Copy(SourceFile, DestFile);
if (TargetData.Platform == UnrealTargetPlatform.Win64)
{
FileReference PdbSourceFile = SourceFile.ChangeExtension("pdb");
FileReference PdbDestFile = DestFile.ChangeExtension("pdb");
FileReference.Copy(PdbSourceFile, PdbDestFile);
}
}
}
private static void BuildXcodeTarget(TargetPlatformData TargetData, List <string> TargetConfigurations)
{
DirectoryReference Directory = GetProjectDirectory(TargetData);
string ProjectName = "Hlslcc";
string ProjectFile = FileReference.Combine(Directory, ProjectName + ".xcodeproj").ToString();
if (!DirectoryExists(ProjectFile))
{
throw new AutomationException(String.Format("Unabled to build project {0}. Project file not found.", ProjectFile));
}
foreach (string BuildConfig in TargetConfigurations)
{
string CmdLine = String.Format("-project \"{0}\" -target=\"ALL_BUILD\" -configuration {1} -quiet", ProjectFile, BuildConfig);
RunAndLog(BuildCommand.CmdEnv, "/usr/bin/xcodebuild", CmdLine);
}
}
private static string GetCMakeArguments(TargetPlatformData TargetData, string BuildConfig = "", WindowsCompiler TargetWindowsCompiler = WindowsCompiler.VisualStudio2015_DEPRECATED)
{
string VisualStudioName;
switch (TargetWindowsCompiler)
{
case WindowsCompiler.VisualStudio2015_DEPRECATED:
VisualStudioName = "Visual Studio 14 2015";
break;
default:
throw new AutomationException(String.Format("Non-CMake or unsupported platform '{0}' supplied to GetCMakeArguments", TargetData.ToString()));
}
string OutputFlags = "";
// Enable response files for platforms that require them.
// Response files are used for include paths etc, to fix max command line length issues.
if (TargetData.Platform == UnrealTargetPlatform.Linux)
{
OutputFlags += " -DUSE_RESPONSE_FILES=1";
}
DirectoryReference CMakeFilePath = DirectoryReference.Combine(SourceRootDirectory, "projects");
if (TargetData.Platform == UnrealTargetPlatform.Win64)
{
return(CMakeFilePath.ToString() + " -G \"" + VisualStudioName + "\" -Ax64 -DTARGET_BUILD_PLATFORM=windows" + OutputFlags);
}
else if (TargetData.Platform == UnrealTargetPlatform.Linux)
{
return(CMakeFilePath.ToString() + " --no-warn-unused-cli -G \"Unix Makefiles\" -DTARGET_BUILD_PLATFORM=linux " + " -DCMAKE_BUILD_TYPE=" + BuildConfig + GetLinuxToolchainSettings(TargetData) + OutputFlags);
}
else if (TargetData.Platform == UnrealTargetPlatform.Mac)
{
return(CMakeFilePath.ToString() + " -G \"Xcode\" -DTARGET_BUILD_PLATFORM=mac" + OutputFlags);
}
else
{
throw new AutomationException(String.Format("Non-CMake or unsupported platform '{0}' supplied to GetCMakeArguments", TargetData.ToString()));
}
}
private static void BuildMSBuildTarget(TargetPlatformData TargetData, List <string> TargetConfigurations, WindowsCompiler TargetWindowsCompiler = WindowsCompiler.VisualStudio2015_DEPRECATED)
{
string SolutionFile = GetTargetLibSolutionFileName(TargetData, TargetWindowsCompiler).ToString();
string MSDevExe = GetMsDevExe(TargetData);
if (!FileExists(SolutionFile))
{
throw new AutomationException(String.Format("Unabled to build Solution {0}. Solution file not found.", SolutionFile));
}
if (String.IsNullOrEmpty(MSDevExe))
{
throw new AutomationException(String.Format("Unabled to build Solution {0}. devenv.com not found.", SolutionFile));
}
foreach (string BuildConfig in TargetConfigurations)
{
string CmdLine = String.Format("\"{0}\" /build \"{1}\"", SolutionFile, BuildConfig);
RunAndLog(BuildCommand.CmdEnv, MSDevExe, CmdLine);
}
}
private static void BuildMakefileTarget(TargetPlatformData TargetData, List <string> TargetConfigurations)
{
// FIXME: use absolute path
string MakeCommand = "make";
// FIXME: "j -16" should be tweakable
//string MakeOptions = "-j 1";
string MakeOptions = "-j 16";
// Bundled GNU make does not pass job number to subprocesses on Windows, work around that...
if (BuildHostPlatform.Current.Platform == UnrealTargetPlatform.Win64)
{
// Redefining the MAKE variable will cause the -j flag to be passed to child make instances.
MakeOptions = string.Format("{1} \"MAKE={0} {1}\"", MakeCommand, MakeOptions);
}
// makefile build has "projects" for every configuration. However, we abstract away from that by assuming GetProjectDirectory points to the "meta-project"
foreach (string BuildConfig in TargetConfigurations)
{
DirectoryReference MetaProjectDirectory = GetProjectDirectory(TargetData);
DirectoryReference ConfigDirectory = DirectoryReference.Combine(MetaProjectDirectory, BuildConfig);
string Makefile = FileReference.Combine(ConfigDirectory, "Makefile").ToString();
if (!FileExists(Makefile))
{
throw new AutomationException(String.Format("Unabled to build {0} - file not found.", Makefile));
}
ProcessStartInfo StartInfo = new ProcessStartInfo();
StartInfo.FileName = MakeCommand;
StartInfo.WorkingDirectory = ConfigDirectory.ToString();
StartInfo.Arguments = MakeOptions;
LogInformation("Working in: {0}", StartInfo.WorkingDirectory);
LogInformation("{0} {1}", StartInfo.FileName, StartInfo.Arguments);
if (RunLocalProcessAndLogOutput(StartInfo) != 0)
{
throw new AutomationException(String.Format("Unabled to build {0}. Build process failed.", Makefile));
}
}
}
private static string GetCMakeNameAndSetupEnv(TargetPlatformData TargetData)
{
DirectoryReference CMakeRootDirectory = DirectoryReference.Combine(CommandUtils.RootDirectory, "Engine", "Extras", "ThirdPartyNotUE", "CMake");
if (BuildHostPlatform.Current.Platform == UnrealTargetPlatform.Linux)
{
return("cmake");
}
Environment.SetEnvironmentVariable("CMAKE_ROOT", DirectoryReference.Combine(CMakeRootDirectory, "share").ToString());
LogInformation("set {0}={1}", "CMAKE_ROOT", Environment.GetEnvironmentVariable("CMAKE_ROOT"));
if (TargetData.Platform == UnrealTargetPlatform.Mac)
{
return(FileReference.Combine(CMakeRootDirectory, "bin", "cmake").ToString());
}
else
{
return(FileReference.Combine(CMakeRootDirectory, "bin", "cmake.exe").ToString());
}
}
private static string GetLinuxToolchainSettings(TargetPlatformData TargetData)
{
if (BuildHostPlatform.Current.Platform == UnrealTargetPlatform.Linux)
{
string ExtraSettings = "";
// native builds try to use bundled toolchain
string ToolchainPath = Environment.GetEnvironmentVariable("LINUX_MULTIARCH_ROOT");
if (string.IsNullOrEmpty(ToolchainPath))
{
// try to find bundled toolchain
DirectoryReference ToolchainDir = DirectoryReference.Combine(ThirdPartySourceDirectory, "..", "..", "Extras", "ThirdPartyNotUE", "SDKs", "HostLinux", "Linux_x64");
LogInformation("LINUX_MULTIARCH_ROOT not defined. Looking for Linux toolchain in {0}...", ToolchainDir);
IEnumerable <DirectoryReference> AvailableToolchains = DirectoryReference.EnumerateDirectories(ToolchainDir);
if (AvailableToolchains.Count() > 0)
{
// grab first available
ToolchainPath = AvailableToolchains.First() + "/x86_64-unknown-linux-gnu";
}
}
if (string.IsNullOrEmpty(ToolchainPath))
{
LogInformation("Bundled toolchain not found. Using system clang.");
}
else
{
ExtraSettings = GetBundledLinuxLibCxxFlags(ToolchainPath);
ToolchainPath += "/bin/";
}
LogInformation("Using toolchain: {0}", ToolchainPath);
return(string.Format(" -DCMAKE_C_COMPILER={0}clang -DCMAKE_CXX_COMPILER={0}clang++ ", ToolchainPath) + ExtraSettings);
}
// otherwise, use a per-architecture file.
return(" -DCMAKE_TOOLCHAIN_FILE=\"" + SourceRootDirectory + "\\..\\..\\PhysX3\\Externals\\CMakeModules\\Linux\\LinuxCrossToolchain.multiarch.cmake\"" + " -DARCHITECTURE_TRIPLE=" + TargetData.Architecture);
}
private static void BuildTargetLibForPlatform(TargetPlatformData TargetData, List <string> TargetConfigurations, List <WindowsCompiler> TargetWindowsCompilers)
{
if (DoesPlatformUseMSBuild(TargetData))
{
foreach (WindowsCompiler TargetWindowsCompiler in TargetWindowsCompilers)
{
BuildMSBuildTarget(TargetData, TargetConfigurations, TargetWindowsCompiler);
}
}
else if (DoesPlatformUseXcode(TargetData))
{
BuildXcodeTarget(TargetData, TargetConfigurations);
}
else if (DoesPlatformUseMakefiles(TargetData))
{
BuildMakefileTarget(TargetData, TargetConfigurations);
}
else
{
throw new AutomationException(String.Format("Unsupported target platform '{0}' passed to BuildTargetLibForPlatform", TargetData));
}
}
//private static UnrealBuildTool.DirectoryReference PhysX34SourceLibRootDirectory = UnrealBuildTool.DirectoryReference.Combine(PhysX34SourceRootDirectory, "Lib");
//private static UnrealBuildTool.DirectoryReference APEX14SourceLibRootDirectory = UnrealBuildTool.DirectoryReference.Combine(APEX14SourceRootDirectory, "Lib");
//private static UnrealBuildTool.DirectoryReference SharedSourceLibRootDirectory = UnrealBuildTool.DirectoryReference.Combine(SharedSourceRootDirectory, "Lib");
//private static UnrealBuildTool.DirectoryReference PhysXEngineBinaryRootDirectory = UnrealBuildTool.DirectoryReference.Combine(UnrealBuildTool.UnrealBuildTool.RootDirectory, "Engine\\Binaries\\ThirdParty\\PhysX");
//private static UnrealBuildTool.DirectoryReference PhysX34EngineBinaryRootDirectory = UnrealBuildTool.DirectoryReference.Combine(PhysXEngineBinaryRootDirectory, "PhysX-3.4");
//private static UnrealBuildTool.DirectoryReference APEX14EngineBinaryRootDirectory = UnrealBuildTool.DirectoryReference.Combine(PhysXEngineBinaryRootDirectory, "APEX-1.4");
//private static UnrealBuildTool.DirectoryReference SharedEngineBinaryRootDirectory = UnrealBuildTool.DirectoryReference.Combine(PhysXEngineBinaryRootDirectory, "PxShared-1.0");
private static string GetCMakeNameAndSetupEnv(TargetPlatformData TargetData)
{
DirectoryReference CMakeRootDirectory = DirectoryReference.Combine(CommandUtils.RootDirectory, "Engine", "Extras", "ThirdPartyNotUE", "CMake");
if(BuildHostPlatform.Current.Platform == UnrealTargetPlatform.Linux)
{
return "cmake";
}
Environment.SetEnvironmentVariable("CMAKE_ROOT", DirectoryReference.Combine(CMakeRootDirectory, "share").ToString());
Log("set {0}={1}", "CMAKE_ROOT", Environment.GetEnvironmentVariable("CMAKE_ROOT"));
switch (TargetData.Platform)
{
case UnrealTargetPlatform.HTML5:
return "cmake";
case UnrealTargetPlatform.Mac:
case UnrealTargetPlatform.IOS:
case UnrealTargetPlatform.TVOS:
return FileReference.Combine(CMakeRootDirectory, "bin", "cmake").ToString();
default:
return FileReference.Combine(CMakeRootDirectory, "bin", "cmake.exe").ToString();
}
}
private static DirectoryReference GetPlatformLibDirectory(TargetPlatformData TargetData, WindowsCompiler TargetWindowsCompiler)
{
string VisualStudioName = string.Empty;
string ArchName = string.Empty;
if (DoesPlatformUseMSBuild(TargetData))
{
switch (TargetWindowsCompiler)
{
case WindowsCompiler.VisualStudio2015_DEPRECATED:
VisualStudioName = "VS2015";
break;
default:
throw new AutomationException(String.Format("Unsupported visual studio compiler '{0}' supplied to GetOutputLibDirectory", TargetWindowsCompiler));
}
}
if (TargetData.Platform == UnrealTargetPlatform.Win64)
{
ArchName = "Win64";
}
else if (TargetData.Platform == UnrealTargetPlatform.Linux)
{
ArchName = "Linux/" + TargetData.Architecture;
}
else if (TargetData.Platform == UnrealTargetPlatform.Mac)
{
ArchName = "Mac";
}
else
{
throw new AutomationException(String.Format("Unsupported platform '{0}' supplied to GetOutputLibDirectory", TargetData.ToString()));
}
return(DirectoryReference.Combine(RootOutputLibDirectory, ArchName, VisualStudioName));
}
private static string GetCMakeTargetDirectoryName(TargetPlatformData TargetData, WindowsCompiler TargetWindowsCompiler)
{
string VisualStudioDirectoryName;
switch (TargetWindowsCompiler)
{
case WindowsCompiler.VisualStudio2015_DEPRECATED:
VisualStudioDirectoryName = "VS2015";
break;
default:
throw new AutomationException(String.Format("Non-CMake or unsupported windows compiler '{0}' supplied to GetCMakeTargetDirectoryName", TargetWindowsCompiler));
}
if (TargetData.Platform == UnrealTargetPlatform.Win64)
{
// Note slashes need to be '/' as this gets string-composed in the CMake script with other paths
return("Win64/" + VisualStudioDirectoryName);
}
else
{
return(TargetData.Platform.ToString());
}
}
private static bool PlatformSupportsTargetLib(TargetPlatformData TargetData)
{
if (TargetData.Platform == UnrealTargetPlatform.Win64)
{
return(BuildHostPlatform.Current.Platform == UnrealTargetPlatform.Win64);
}
else if (TargetData.Platform == UnrealTargetPlatform.Mac)
{
return(BuildHostPlatform.Current.Platform == UnrealTargetPlatform.Mac);
}
else if (TargetData.Platform == UnrealTargetPlatform.Linux)
{
// only x86_64 Linux supports it.
if (!TargetData.Architecture.StartsWith("x86_64"))
{
return(false);
}
// cross and native compilation is supported
return(BuildHostPlatform.Current.Platform == UnrealTargetPlatform.Win64 || BuildHostPlatform.Current.Platform == UnrealTargetPlatform.Linux);
}
return(false);
}
private static void FindOutputFiles(HashSet <FileReference> OutputFiles, TargetPlatformData TargetData, string TargetConfiguration, WindowsCompiler TargetWindowsCompiler = WindowsCompiler.VisualStudio2015_DEPRECATED)
{
string SearchSuffix = "";
if (TargetConfiguration == "Debug")
{
SearchSuffix = "d";
}
if (TargetData.Platform == UnrealTargetPlatform.Win64)
{
SearchSuffix += "_64";
}
string SearchPrefix = "*" + SearchSuffix + ".";
DirectoryReference LibDir = GetPlatformLibDirectory(TargetData, TargetWindowsCompiler);
FindOutputFilesHelper(OutputFiles, LibDir, SearchPrefix + GetPlatformLibExtension(TargetData));
if (TargetData.Platform == UnrealTargetPlatform.Win64)
{
FindOutputFilesHelper(OutputFiles, LibDir, SearchPrefix + "pdb");
}
}
private static string GetPlatformBinaryExtension(TargetPlatformData TargetData)
{
switch (TargetData.Platform)
{
case UnrealTargetPlatform.Win32:
case UnrealTargetPlatform.Win64:
return "dll";
case UnrealTargetPlatform.Mac:
return "dylib";
}
return "";
}
private static bool DoesPlatformUseXcode(TargetPlatformData TargetData)
{
return(TargetData.Platform == UnrealTargetPlatform.Mac);
}
private static bool DoesPlatformUseXcode(TargetPlatformData TargetData)
{
switch (TargetData.Platform)
{
case UnrealTargetPlatform.Mac:
case UnrealTargetPlatform.IOS:
case UnrealTargetPlatform.TVOS:
return true;
default:
return false;
}
}
private static bool DoesPlatformUseMSBuild(TargetPlatformData TargetData)
{
switch (TargetData.Platform)
{
case UnrealTargetPlatform.Win32:
case UnrealTargetPlatform.Win64:
case UnrealTargetPlatform.XboxOne:
return true;
default:
return false;
}
}
private static string GetMsBuildExe(TargetPlatformData TargetData)
{
switch (TargetData.Platform)
{
case UnrealTargetPlatform.Win32:
case UnrealTargetPlatform.Win64:
case UnrealTargetPlatform.XboxOne:
return MsBuildExe.ToString();
default:
throw new AutomationException(String.Format("Non-MSBuild or unsupported platform '{0}' supplied to GetMsBuildExe", TargetData.ToString()));
}
}
private static string GetLinuxToolchainSettings(TargetPlatformData TargetData)
{
if (BuildHostPlatform.Current.Platform == UnrealTargetPlatform.Linux)
{
// in native builds we don't really use a crosstoolchain description, just use system compiler
return " -DCMAKE_C_COMPILER=clang -DCMAKE_CXX_COMPILER=clang++";
}
// otherwise, use a per-architecture file.
return " -DCMAKE_TOOLCHAIN_FILE=\"" + PhysXSourceRootDirectory + "\\Externals\\CMakeModules\\Linux\\LinuxCrossToolchain." + TargetData.Architecture + ".cmake\"";
}
private static bool PlatformSupportsTargetLib(PhysXTargetLib TargetLib, TargetPlatformData TargetData)
{
if(TargetLib == PhysXTargetLib.APEX)
{
switch (TargetData.Platform)
{
case UnrealTargetPlatform.Win32:
case UnrealTargetPlatform.Win64:
case UnrealTargetPlatform.PS4:
case UnrealTargetPlatform.XboxOne:
case UnrealTargetPlatform.Mac:
case UnrealTargetPlatform.HTML5:
return true;
case UnrealTargetPlatform.Linux:
// only x86_64 Linux supports it.
return TargetData.Architecture.StartsWith("x86_64");
default:
return false;
}
}
return true;
}
private static void BuildMSBuildTarget(PhysXTargetLib TargetLib, TargetPlatformData TargetData, List<string> TargetConfigurations, WindowsCompiler TargetWindowsCompiler = WindowsCompiler.VisualStudio2015)
{
string SolutionFile = GetTargetLibSolutionFileName(TargetLib, TargetData, TargetWindowsCompiler).ToString();
string MSDevExe = GetMsDevExe(TargetData);
if (!FileExists(SolutionFile))
{
throw new AutomationException(String.Format("Unabled to build Solution {0}. Solution file not found.", SolutionFile));
}
if (String.IsNullOrEmpty(MSDevExe))
{
throw new AutomationException(String.Format("Unabled to build Solution {0}. devenv.com not found.", SolutionFile));
}
foreach (string BuildConfig in TargetConfigurations)
{
string CmdLine = String.Format("\"{0}\" /build \"{1}\"", SolutionFile, BuildConfig);
RunAndLog(BuildCommand.CmdEnv, MSDevExe, CmdLine);
}
}
private static bool DoesPlatformUseMSBuild(TargetPlatformData TargetData)
{
return(TargetData.Platform == UnrealTargetPlatform.Win64);
}
private static bool DoesPlatformUseMakefiles(TargetPlatformData TargetData)
{
return(TargetData.Platform == UnrealTargetPlatform.Linux);
}
private static string GetPlatformLibExtension(TargetPlatformData TargetData)
{
switch (TargetData.Platform)
{
case UnrealTargetPlatform.Win32:
case UnrealTargetPlatform.Win64:
case UnrealTargetPlatform.XboxOne:
return "lib";
case UnrealTargetPlatform.PS4:
case UnrealTargetPlatform.Android:
case UnrealTargetPlatform.Linux:
case UnrealTargetPlatform.Mac:
return "a";
case UnrealTargetPlatform.HTML5:
return "bc";
}
return "";
}
private static void BuildXboxTarget(PhysXTargetLib TargetLib, TargetPlatformData TargetData, List<string> TargetConfigurations, WindowsCompiler TargetWindowsCompiler = WindowsCompiler.VisualStudio2015)
{
if (TargetData.Platform != UnrealTargetPlatform.XboxOne)
{
return;
}
string SolutionFile = GetTargetLibSolutionFileName(TargetLib, TargetData, TargetWindowsCompiler).ToString();
string MSBuildExe = GetMsBuildExe(TargetData);
if (!FileExists(SolutionFile))
{
throw new AutomationException(String.Format("Unabled to build Solution {0}. Solution file not found.", SolutionFile));
}
if (String.IsNullOrEmpty(MSBuildExe))
{
throw new AutomationException(String.Format("Unabled to build Solution {0}. msbuild.exe not found.", SolutionFile));
}
string AdditionalProperties = "";
string AutoSDKPropsPath = Environment.GetEnvironmentVariable("XboxOneAutoSDKProp");
if (AutoSDKPropsPath != null && AutoSDKPropsPath.Length > 0)
{
AdditionalProperties += String.Format(";CustomBeforeMicrosoftCommonProps={0}", AutoSDKPropsPath);
}
string XboxCMakeModulesPath = Path.Combine(PhysXSourceRootDirectory.FullName, "Externals", "CMakeModules", "XboxOne", "Microsoft.Cpp.Durango.user.props");
if (File.Exists(XboxCMakeModulesPath))
{
AdditionalProperties += String.Format(";ForceImportBeforeCppTargets={0}", XboxCMakeModulesPath);
}
foreach (string BuildConfig in TargetConfigurations)
{
string CmdLine = String.Format("\"{0}\" /t:build /p:Configuration={1};Platform=Durango{2}", SolutionFile, BuildConfig, AdditionalProperties);
RunAndLog(BuildCommand.CmdEnv, MSBuildExe, CmdLine);
}
}
private static void FindOutputFiles(HashSet<FileReference> OutputFiles, PhysXTargetLib TargetLib, TargetPlatformData TargetData, string TargetConfiguration, WindowsCompiler TargetWindowsCompiler = WindowsCompiler.VisualStudio2015)
{
string SearchPrefix = "*" + GetConfigurationSuffix(TargetConfiguration).ToUpper() + "*.";
string DebugExtension = PlatformUsesDebugDatabase(TargetData) ? GetPlatformDebugDatabaseExtension(TargetData) : "";
if (PlatformHasBinaries(TargetData))
{
DirectoryReference BinaryDir = GetPlatformBinaryDirectory(TargetData, TargetWindowsCompiler);
FindOutputFilesHelper(OutputFiles, BinaryDir, SearchPrefix + GetPlatformBinaryExtension(TargetData), TargetLib);
if (PlatformUsesDebugDatabase(TargetData))
{
FindOutputFilesHelper(OutputFiles, BinaryDir, SearchPrefix + DebugExtension, TargetLib);
}
}
DirectoryReference LibDir = GetPlatformLibDirectory(TargetData, TargetWindowsCompiler);
FindOutputFilesHelper(OutputFiles, LibDir, SearchPrefix + GetPlatformLibExtension(TargetData), TargetLib);
if (PlatformUsesDebugDatabase(TargetData))
{
FindOutputFilesHelper(OutputFiles, LibDir, SearchPrefix + DebugExtension, TargetLib);
}
}
private static void BuildXcodeTarget(PhysXTargetLib TargetLib, TargetPlatformData TargetData, List<string> TargetConfigurations)
{
UnrealBuildTool.DirectoryReference Directory = GetProjectDirectory(TargetLib, TargetData);
string ProjectFile = UnrealBuildTool.FileReference.Combine(Directory, (TargetLib == PhysXTargetLib.PhysX ? "PhysX" : "APEX") + ".xcodeproj").ToString();
if (!DirectoryExists(ProjectFile))
{
throw new AutomationException(String.Format("Unabled to build project {0}. Project file not found.", ProjectFile));
}
foreach (string BuildConfig in TargetConfigurations)
{
string CmdLine = String.Format("-project \"{0}\" -target=\"ALL_BUILD\" -configuration {1}", ProjectFile, BuildConfig);
RunAndLog(BuildCommand.CmdEnv, "/usr/bin/xcodebuild", CmdLine);
}
}
private static UnrealBuildTool.DirectoryReference GetProjectDirectory(PhysXTargetLib TargetLib, TargetPlatformData TargetData, WindowsCompiler TargetWindowsCompiler = WindowsCompiler.VisualStudio2015)
{
UnrealBuildTool.DirectoryReference Directory = new UnrealBuildTool.DirectoryReference(GetTargetLibRootDirectory(TargetLib).ToString());
switch(TargetLib)
{
case PhysXTargetLib.PhysX:
Directory = UnrealBuildTool.DirectoryReference.Combine(Directory, "Source");
break;
case PhysXTargetLib.APEX:
// APEX has its 'compiler' directory in a different location off the root of APEX
break;
}
return UnrealBuildTool.DirectoryReference.Combine(Directory, "compiler", GetCMakeTargetDirectoryName(TargetData, TargetWindowsCompiler));
}
private static FileReference GetTargetLibSolutionFileName(TargetPlatformData TargetData, WindowsCompiler TargetWindowsCompiler)
{
DirectoryReference Directory = GetProjectDirectory(TargetData, TargetWindowsCompiler);
return(FileReference.Combine(Directory, GetTargetLibSolutionName()));
}
private static string GetCMakeArguments(PhysXTargetLib TargetLib, TargetPlatformData TargetData, string BuildConfig = "", WindowsCompiler TargetWindowsCompiler = WindowsCompiler.VisualStudio2015)
{
string VisualStudioName;
switch(TargetWindowsCompiler)
{
case WindowsCompiler.VisualStudio2013:
VisualStudioName = "Visual Studio 12 2013";
break;
case WindowsCompiler.VisualStudio2015:
VisualStudioName = "Visual Studio 14 2015";
break;
default:
throw new AutomationException(String.Format("Non-CMake or unsupported platform '{0}' supplied to GetCMakeArguments", TargetData.ToString()));
}
string OutputFlags = " -DPX_OUTPUT_LIB_DIR=" + GetPlatformLibDirectory(TargetData, TargetWindowsCompiler);
if(PlatformHasBinaries(TargetData))
{
OutputFlags += " -DPX_OUTPUT_DLL_DIR=" + GetPlatformBinaryDirectory(TargetData, TargetWindowsCompiler) + " -DPX_OUTPUT_EXE_DIR=" + GetPlatformBinaryDirectory(TargetData, TargetWindowsCompiler);
}
// Enable response files for platforms that require them.
// Response files are used for include paths etc, to fix max command line length issues.
switch (TargetData.Platform)
{
case UnrealTargetPlatform.PS4:
case UnrealTargetPlatform.Linux:
OutputFlags += " -DUSE_RESPONSE_FILES=1";
break;
}
string CustomFlags = " -DAPEX_ENABLE_UE4=1";
switch (TargetLib)
{
case PhysXTargetLib.PhysX:
DirectoryReference PhysXCMakeFiles = DirectoryReference.Combine(PhysX34SourceRootDirectory, "Source", "compiler", "cmake");
switch (TargetData.Platform)
{
case UnrealTargetPlatform.Win32:
return DirectoryReference.Combine(PhysXCMakeFiles, "Windows").ToString() + " -G \"" + VisualStudioName + "\" -AWin32 -DTARGET_BUILD_PLATFORM=Windows" + OutputFlags;
case UnrealTargetPlatform.Win64:
return DirectoryReference.Combine(PhysXCMakeFiles, "Windows").ToString() + " -G \"" + VisualStudioName + "\" -Ax64 -DTARGET_BUILD_PLATFORM=Windows" + OutputFlags;
case UnrealTargetPlatform.PS4:
return DirectoryReference.Combine(PhysXCMakeFiles, "PS4").ToString() + " -G \"Unix Makefiles\" -DTARGET_BUILD_PLATFORM=PS4 -DCMAKE_BUILD_TYPE=" + BuildConfig + " -DCMAKE_TOOLCHAIN_FILE=\"" + PhysXSourceRootDirectory + "\\Externals\\CMakeModules\\PS4\\PS4Toolchain.txt\"" + OutputFlags;
case UnrealTargetPlatform.XboxOne:
return DirectoryReference.Combine(PhysXCMakeFiles, "XboxOne").ToString() + " -G \"Visual Studio 14 2015\" -DTARGET_BUILD_PLATFORM=XboxOne -DCMAKE_TOOLCHAIN_FILE=\"" + PhysXSourceRootDirectory + "\\Externals\\CMakeModules\\XboxOne\\XboxOneToolchain.txt\" -DCMAKE_GENERATOR_PLATFORM=DURANGO" + OutputFlags;
case UnrealTargetPlatform.Android:
string NDKDirectory = Environment.GetEnvironmentVariable("NDKROOT");
// don't register if we don't have an NDKROOT specified
if (String.IsNullOrEmpty(NDKDirectory))
{
throw new BuildException("NDKROOT is not specified; cannot build Android.");
}
NDKDirectory = NDKDirectory.Replace("\"", "");
string AndroidAPILevel = "android-19";
string AndroidABI = "armeabi-v7a";
switch (TargetData.Architecture)
{
case "armv7": AndroidAPILevel = "android-19"; AndroidABI = "armeabi-v7a"; break;
case "arm64": AndroidAPILevel = "android-21"; AndroidABI = "arm64-v8a"; break;
case "x86": AndroidAPILevel = "android-19"; AndroidABI = "x86"; break;
case "x64": AndroidAPILevel = "android-21"; AndroidABI = "x86_64"; break;
}
return DirectoryReference.Combine(PhysXCMakeFiles, "Android").ToString() + " -G \"MinGW Makefiles\" -DTARGET_BUILD_PLATFORM=Android -DCMAKE_BUILD_TYPE=" + BuildConfig + " -DCMAKE_TOOLCHAIN_FILE=\"" + PhysXSourceRootDirectory + "\\Externals\\CMakeModules\\Android\\android.toolchain.cmake\" -DANDROID_NDK=\"" + NDKDirectory + "\" -DCMAKE_MAKE_PROGRAM=\"" + NDKDirectory + "\\prebuilt\\windows-x86_64\\bin\\make.exe\" -DANDROID_NATIVE_API_LEVEL=\"" + AndroidAPILevel + "\" -DANDROID_ABI=\"" + AndroidABI + "\" -DANDROID_STL=gnustl_shared" + OutputFlags;
case UnrealTargetPlatform.Linux:
return DirectoryReference.Combine(PhysXCMakeFiles, "Linux").ToString() + " -G \"Unix Makefiles\" -DTARGET_BUILD_PLATFORM=Linux -DCMAKE_BUILD_TYPE=" + BuildConfig + GetLinuxToolchainSettings(TargetData) + OutputFlags;
case UnrealTargetPlatform.Mac:
return DirectoryReference.Combine(PhysXCMakeFiles, "Mac").ToString() + " -G \"Xcode\" -DTARGET_BUILD_PLATFORM=Mac" + OutputFlags;
case UnrealTargetPlatform.IOS:
return DirectoryReference.Combine(PhysXCMakeFiles, "IOS").ToString() + " -G \"Xcode\" -DTARGET_BUILD_PLATFORM=IOS" + OutputFlags;
case UnrealTargetPlatform.TVOS:
return DirectoryReference.Combine(PhysXCMakeFiles, "TVOS").ToString() + " -G \"Xcode\" -DTARGET_BUILD_PLATFORM=TVOS" + OutputFlags;
case UnrealTargetPlatform.HTML5:
string CmakeToolchainFile = FileReference.Combine(PhysXSourceRootDirectory, "Externals", "CMakeModules", "HTML5", "Emscripten.cmake").ToString();
return DirectoryReference.Combine(PhysXCMakeFiles, "HTML5").ToString() +
" -G \"Unix Makefiles\" -DTARGET_BUILD_PLATFORM=HTML5" +
" -DPXSHARED_ROOT_DIR=\"" + SharedSourceRootDirectory.ToString() + "\"" +
" -DNVSIMD_INCLUDE_DIR=\"" + SharedSourceRootDirectory.ToString() + "/src/NvSimd\"" +
" -DNVTOOLSEXT_INCLUDE_DIRS=\"" + PhysX34SourceRootDirectory + "/externals/nvToolsExt/include\"" +
" -DCMAKE_BUILD_TYPE=\"Release\" -DCMAKE_TOOLCHAIN_FILE=\"" + CmakeToolchainFile + "\"" +
OutputFlags;
default:
throw new AutomationException(String.Format("Non-CMake or unsupported platform '{0}' supplied to GetCMakeArguments", TargetData.ToString()));
}
case PhysXTargetLib.APEX:
DirectoryReference ApexCMakeFiles = DirectoryReference.Combine(APEX14SourceRootDirectory, "compiler", "cmake");
switch (TargetData.Platform)
{
case UnrealTargetPlatform.Win32:
return DirectoryReference.Combine(ApexCMakeFiles, "Windows").ToString() + " -G \"" + VisualStudioName + "\" -AWin32 -DTARGET_BUILD_PLATFORM=Windows" + OutputFlags + CustomFlags;
case UnrealTargetPlatform.Win64:
return DirectoryReference.Combine(ApexCMakeFiles, "Windows").ToString() + " -G \"" + VisualStudioName + "\" -Ax64 -DTARGET_BUILD_PLATFORM=Windows" + OutputFlags + CustomFlags;
case UnrealTargetPlatform.PS4:
return DirectoryReference.Combine(ApexCMakeFiles, "PS4").ToString() + " -G \"Unix Makefiles\" -DTARGET_BUILD_PLATFORM=PS4 -DCMAKE_BUILD_TYPE=" + BuildConfig + " -DCMAKE_TOOLCHAIN_FILE=\"" + PhysXSourceRootDirectory + "\\Externals\\CMakeModules\\PS4\\PS4Toolchain.txt\"" + OutputFlags + CustomFlags;
case UnrealTargetPlatform.XboxOne:
return DirectoryReference.Combine(ApexCMakeFiles, "XboxOne").ToString() + " -G \"Visual Studio 14 2015\" -DTARGET_BUILD_PLATFORM=XboxOne -DCMAKE_TOOLCHAIN_FILE=\"" + PhysXSourceRootDirectory + "\\Externals\\CMakeModules\\XboxOne\\XboxOneToolchain.txt\" -DCMAKE_GENERATOR_PLATFORM=DURANGO" + OutputFlags + CustomFlags;
case UnrealTargetPlatform.Linux:
return DirectoryReference.Combine(ApexCMakeFiles, "Linux").ToString() + " -G \"Unix Makefiles\" -DTARGET_BUILD_PLATFORM=Linux -DCMAKE_BUILD_TYPE=" + BuildConfig + GetLinuxToolchainSettings(TargetData) + OutputFlags + CustomFlags;
case UnrealTargetPlatform.Mac:
return DirectoryReference.Combine(ApexCMakeFiles, "Mac").ToString() + " -G \"Xcode\" -DTARGET_BUILD_PLATFORM=Mac" + OutputFlags + CustomFlags;
case UnrealTargetPlatform.HTML5:
string CmakeToolchainFile = FileReference.Combine(PhysXSourceRootDirectory, "Externals", "CMakeModules", "HTML5", "Emscripten.cmake").ToString();
return DirectoryReference.Combine(ApexCMakeFiles, "HTML5").ToString() +
" -G \"Unix Makefiles\" -DTARGET_BUILD_PLATFORM=HTML5" +
" -DPHYSX_ROOT_DIR=\"" + PhysX34SourceRootDirectory.ToString() + "\"" +
" -DPXSHARED_ROOT_DIR=\"" + SharedSourceRootDirectory.ToString() + "\"" +
" -DNVSIMD_INCLUDE_DIR=\"" + SharedSourceRootDirectory.ToString() + "/src/NvSimd\"" +
" -DNVTOOLSEXT_INCLUDE_DIRS=\"" + PhysX34SourceRootDirectory + "/externals/nvToolsExt/include\"" +
" -DCMAKE_BUILD_TYPE=\"Release\" -DCMAKE_TOOLCHAIN_FILE=\"" + CmakeToolchainFile + "\"" +
OutputFlags + CustomFlags;
default:
throw new AutomationException(String.Format("Non-CMake or unsupported platform '{0}' supplied to GetCMakeArguments", TargetData.ToString()));
}
default:
throw new AutomationException(String.Format("Non-CMake or unsupported lib '{0}' supplied to GetCMakeArguments", TargetLib));
}
}
private static bool PlatformHasBinaries(TargetPlatformData TargetData)
{
switch (TargetData.Platform)
{
case UnrealTargetPlatform.Win32:
case UnrealTargetPlatform.Win64:
case UnrealTargetPlatform.Mac:
return true;
}
return false;
}
private static UnrealBuildTool.FileReference GetTargetLibSolutionFileName(PhysXTargetLib TargetLib, TargetPlatformData TargetData, WindowsCompiler TargetWindowsCompiler)
{
UnrealBuildTool.DirectoryReference Directory = GetProjectDirectory(TargetLib, TargetData, TargetWindowsCompiler);
return UnrealBuildTool.FileReference.Combine(Directory, GetTargetLibSolutionName(TargetLib));
}
private static bool PlatformUsesDebugDatabase(TargetPlatformData TargetData)
{
switch (TargetData.Platform)
{
case UnrealTargetPlatform.Win32:
case UnrealTargetPlatform.Win64:
// case UnrealTargetPlatform.Mac:
case UnrealTargetPlatform.XboxOne:
return true;
}
return false;
}
private static bool DoesPlatformUseMakefiles(TargetPlatformData TargetData)
{
switch (TargetData.Platform)
{
case UnrealTargetPlatform.Android:
case UnrealTargetPlatform.Linux:
case UnrealTargetPlatform.HTML5:
case UnrealTargetPlatform.PS4:
return true;
default:
return false;
}
}
private static string GetPlatformDebugDatabaseExtension(TargetPlatformData TargetData)
{
switch (TargetData.Platform)
{
case UnrealTargetPlatform.Win32:
case UnrealTargetPlatform.Win64:
case UnrealTargetPlatform.XboxOne:
return "pdb";
case UnrealTargetPlatform.Mac:
return "dSYM";
}
return "";
}
private static void SetupBuildForTargetLibAndPlatform(PhysXTargetLib TargetLib, TargetPlatformData TargetData, List<string> TargetConfigurations, List<WindowsCompiler> TargetWindowsCompilers, bool bCleanOnly)
{
// make sure we set up the environment variable specifying where the root of the PhysX SDK is
Environment.SetEnvironmentVariable("GW_DEPS_ROOT", PhysXSourceRootDirectory.ToString());
Log("set {0}={1}", "GW_DEPS_ROOT", Environment.GetEnvironmentVariable("GW_DEPS_ROOT"));
Environment.SetEnvironmentVariable("CMAKE_MODULE_PATH", DirectoryReference.Combine(PhysXSourceRootDirectory, "Externals", "CMakeModules").ToString());
Log("set {0}={1}", "CMAKE_MODULE_PATH", Environment.GetEnvironmentVariable("CMAKE_MODULE_PATH"));
string CMakeName = GetCMakeNameAndSetupEnv(TargetData);
switch (TargetData.Platform)
{
case UnrealTargetPlatform.Win32:
case UnrealTargetPlatform.Win64:
// for windows platforms we support building against multiple compilers
foreach(WindowsCompiler TargetWindowsCompiler in TargetWindowsCompilers)
{
UnrealBuildTool.DirectoryReference CMakeTargetDirectory = GetProjectDirectory(TargetLib, TargetData, TargetWindowsCompiler);
MakeFreshDirectoryIfRequired(CMakeTargetDirectory);
if(!bCleanOnly)
{
Log("Generating projects for lib " + TargetLib.ToString() + ", " + TargetData.ToString());
ProcessStartInfo StartInfo = new ProcessStartInfo();
StartInfo.FileName = CMakeName;
StartInfo.WorkingDirectory = CMakeTargetDirectory.ToString();
StartInfo.Arguments = GetCMakeArguments(TargetLib, TargetData, "", TargetWindowsCompiler);
RunLocalProcessAndLogOutput(StartInfo);
}
}
break;
case UnrealTargetPlatform.PS4:
case UnrealTargetPlatform.Android:
case UnrealTargetPlatform.Linux:
foreach(string BuildConfig in TargetConfigurations)
{
UnrealBuildTool.DirectoryReference CMakeTargetDirectory = GetProjectDirectory(TargetLib, TargetData);
CMakeTargetDirectory = UnrealBuildTool.DirectoryReference.Combine(CMakeTargetDirectory, BuildConfig);
MakeFreshDirectoryIfRequired(CMakeTargetDirectory);
if (!bCleanOnly)
{
Log("Generating projects for lib " + TargetLib.ToString() + ", " + TargetData.ToString());
ProcessStartInfo StartInfo = new ProcessStartInfo();
StartInfo.FileName = CMakeName;
StartInfo.WorkingDirectory = CMakeTargetDirectory.ToString();
StartInfo.Arguments = GetCMakeArguments(TargetLib, TargetData, BuildConfig);
System.Console.WriteLine("Working in '{0}'", StartInfo.WorkingDirectory);
Log("Working in '{0}'", StartInfo.WorkingDirectory);
System.Console.WriteLine("{0} {1}", StartInfo.FileName, StartInfo.Arguments);
Log("{0} {1}", StartInfo.FileName, StartInfo.Arguments);
if (RunLocalProcessAndLogOutput(StartInfo) != 0)
{
throw new AutomationException(String.Format("Unable to generate projects for {0}.", TargetLib.ToString() + ", " + TargetData.ToString()));
}
}
}
break;
case UnrealTargetPlatform.Mac:
case UnrealTargetPlatform.IOS:
case UnrealTargetPlatform.TVOS:
{
UnrealBuildTool.DirectoryReference CMakeTargetDirectory = GetProjectDirectory(TargetLib, TargetData);
MakeFreshDirectoryIfRequired(CMakeTargetDirectory);
if (!bCleanOnly)
{
Log("Generating projects for lib " + TargetLib.ToString() + ", " + TargetData.ToString());
ProcessStartInfo StartInfo = new ProcessStartInfo();
StartInfo.FileName = CMakeName;
StartInfo.WorkingDirectory = CMakeTargetDirectory.ToString();
StartInfo.Arguments = GetCMakeArguments(TargetLib, TargetData);
RunLocalProcessAndLogOutput(StartInfo);
}
}
break;
case UnrealTargetPlatform.HTML5:
// NOTE: HTML5 does not do "debug" - the full text blows out memory
// instead, HTML5 builds have 4 levels of optimizations
// so, MAP BuildConfig to HTML5 optimization levels
Dictionary<string, string> BuildMap = new Dictionary<string, string>()
{
{"debug", "-O0"},
{"checked", "-O2"},
{"profile", "-Oz"},
{"release", "-O3"}
};
Dictionary<string, string> BuildSuffix = new Dictionary<string, string>()
{
{"debug", ""},
{"checked", "_O2"},
{"profile", "_Oz"},
{"release", "_O3"}
};
UnrealBuildTool.DirectoryReference HTML5CMakeModules = DirectoryReference.Combine(PhysXSourceRootDirectory, "Externals", "CMakeModules", "HTML5");
string CmakeToolchainFile = FileReference.Combine(HTML5CMakeModules, "Emscripten.cmake").ToString();
foreach(string BuildConfig in TargetConfigurations)
{
UnrealBuildTool.DirectoryReference CMakeTargetDirectory = GetProjectDirectory(TargetLib, TargetData);
CMakeTargetDirectory = UnrealBuildTool.DirectoryReference.Combine(CMakeTargetDirectory, "BUILD" + BuildMap[BuildConfig]);
MakeFreshDirectoryIfRequired(CMakeTargetDirectory);
if (!bCleanOnly)
{
Log("Generating projects for lib " + TargetLib.ToString() + ", " + TargetData.ToString());
// CMAKE_TOOLCHAIN_FILE
MakeFreshDirectoryIfRequired(HTML5CMakeModules);
Environment.SetEnvironmentVariable("LIB_SUFFIX", BuildSuffix[BuildConfig]);
string orig = File.ReadAllText(HTML5SDKInfo.EmscriptenCMakeToolChainFile);
string txt = Regex.Replace(orig, "(EPIC_BUILD_FLAGS}) .*-O2" , "$1 " + BuildMap["release"] );
File.WriteAllText(CmakeToolchainFile, txt);
// ----------------------------------------
// CMAKE
ProcessStartInfo StartInfo = new ProcessStartInfo();
StartInfo.FileName = "cmake";
StartInfo.WorkingDirectory = CMakeTargetDirectory.ToString();
StartInfo.Arguments = GetCMakeArguments(TargetLib, TargetData, BuildConfig);
Log("Working in: {0}", StartInfo.WorkingDirectory);
Log("{0} {1}", StartInfo.FileName, StartInfo.Arguments);
if (RunLocalProcessAndLogOutput(StartInfo) != 0)
{
throw new AutomationException(String.Format("Unabled to generate projects for {0}.", TargetLib.ToString() + ", " + TargetData.ToString()));
}
}
}
break;
default:
{
UnrealBuildTool.DirectoryReference CMakeTargetDirectory = GetProjectDirectory(TargetLib, TargetData);
MakeFreshDirectoryIfRequired(CMakeTargetDirectory);
if (!bCleanOnly)
{
Log("Generating projects for lib " + TargetLib.ToString() + ", " + TargetData.ToString());
ProcessStartInfo StartInfo = new ProcessStartInfo();
StartInfo.FileName = CMakeName;
StartInfo.WorkingDirectory = CMakeTargetDirectory.ToString();
StartInfo.Arguments = GetCMakeArguments(TargetLib, TargetData);
RunLocalProcessAndLogOutput(StartInfo);
}
}
break;
}
}
private static void SetupBuildForTargetLibAndPlatform(TargetPlatformData TargetData, List <string> TargetConfigurations, List <WindowsCompiler> TargetWindowsCompilers, bool bCleanOnly)
{
string CMakeName = GetCMakeNameAndSetupEnv(TargetData);
if (TargetData.Platform == UnrealTargetPlatform.Win64)
{
// for windows platforms we support building against multiple compilers
foreach (WindowsCompiler TargetWindowsCompiler in TargetWindowsCompilers)
{
DirectoryReference CMakeTargetDirectory = GetProjectDirectory(TargetData, TargetWindowsCompiler);
MakeFreshDirectoryIfRequired(CMakeTargetDirectory);
if (!bCleanOnly)
{
LogInformation("Generating projects for lib " + TargetData.ToString());
ProcessStartInfo StartInfo = new ProcessStartInfo();
StartInfo.FileName = CMakeName;
StartInfo.WorkingDirectory = CMakeTargetDirectory.ToString();
StartInfo.Arguments = GetCMakeArguments(TargetData, "", TargetWindowsCompiler);
if (RunLocalProcessAndLogOutput(StartInfo) != 0)
{
throw new AutomationException(String.Format("Unable to generate projects for {0}.", TargetData.ToString()));
}
}
}
}
else if (TargetData.Platform == UnrealTargetPlatform.Linux)
{
foreach (string BuildConfig in TargetConfigurations)
{
DirectoryReference CMakeTargetDirectory = GetProjectDirectory(TargetData);
CMakeTargetDirectory = DirectoryReference.Combine(CMakeTargetDirectory, BuildConfig);
MakeFreshDirectoryIfRequired(CMakeTargetDirectory);
if (!bCleanOnly)
{
LogInformation("Generating projects for lib " + TargetData.ToString());
ProcessStartInfo StartInfo = new ProcessStartInfo();
StartInfo.FileName = CMakeName;
StartInfo.WorkingDirectory = CMakeTargetDirectory.ToString();
StartInfo.Arguments = GetCMakeArguments(TargetData, BuildConfig);
System.Console.WriteLine("Working in '{0}'", StartInfo.WorkingDirectory);
LogInformation("Working in '{0}'", StartInfo.WorkingDirectory);
System.Console.WriteLine("{0} {1}", StartInfo.FileName, StartInfo.Arguments);
LogInformation("{0} {1}", StartInfo.FileName, StartInfo.Arguments);
if (RunLocalProcessAndLogOutput(StartInfo) != 0)
{
throw new AutomationException(String.Format("Unable to generate projects for {0}.", TargetData.ToString()));
}
}
}
}
else if (TargetData.Platform == UnrealTargetPlatform.Mac)
{
DirectoryReference CMakeTargetDirectory = GetProjectDirectory(TargetData);
MakeFreshDirectoryIfRequired(CMakeTargetDirectory);
if (!bCleanOnly)
{
LogInformation("Generating projects for lib " + TargetData.ToString());
ProcessStartInfo StartInfo = new ProcessStartInfo();
StartInfo.FileName = CMakeName;
StartInfo.WorkingDirectory = CMakeTargetDirectory.ToString();
StartInfo.Arguments = GetCMakeArguments(TargetData);
if (RunLocalProcessAndLogOutput(StartInfo) != 0)
{
throw new AutomationException(String.Format("Unable to generate projects for {0}.", TargetData.ToString()));
}
}
}
else
{
throw new AutomationException(String.Format("Unable to generate projects for {0}.", TargetData.ToString()));
}
}
private static DirectoryReference GetPlatformBinaryDirectory(TargetPlatformData TargetData, WindowsCompiler TargetWindowsCompiler)
{
string VisualStudioName = string.Empty;
string ArchName = string.Empty;
if (DoesPlatformUseMSBuild(TargetData))
{
switch (TargetWindowsCompiler)
{
case WindowsCompiler.VisualStudio2013:
VisualStudioName = "VS2013";
break;
case WindowsCompiler.VisualStudio2015:
VisualStudioName = "VS2015";
break;
default:
throw new AutomationException(String.Format("Unsupported visual studio compiler '{0}' supplied to GetOutputBinaryDirectory", TargetWindowsCompiler));
}
}
switch (TargetData.Platform)
{
case UnrealTargetPlatform.Win32:
ArchName = "Win32";
break;
case UnrealTargetPlatform.Win64:
ArchName = "Win64";
break;
case UnrealTargetPlatform.Mac:
ArchName = "Mac";
break;
default:
throw new AutomationException(String.Format("Unsupported platform '{0}' supplied to GetOutputBinaryDirectory", TargetData.ToString()));
}
return UnrealBuildTool.DirectoryReference.Combine(RootOutputBinaryDirectory, ArchName, VisualStudioName);
}
private static DirectoryReference GetPlatformLibDirectory(TargetPlatformData TargetData, WindowsCompiler TargetWindowsCompiler)
{
string VisualStudioName = string.Empty;
string ArchName = string.Empty;
if (DoesPlatformUseMSBuild(TargetData))
{
switch (TargetWindowsCompiler)
{
case WindowsCompiler.VisualStudio2013:
VisualStudioName = "VS2013";
break;
case WindowsCompiler.VisualStudio2015:
VisualStudioName = "VS2015";
break;
default:
throw new AutomationException(String.Format("Unsupported visual studio compiler '{0}' supplied to GetOutputLibDirectory", TargetWindowsCompiler));
}
}
switch (TargetData.Platform)
{
case UnrealTargetPlatform.Win32:
ArchName = "Win32";
break;
case UnrealTargetPlatform.Win64:
ArchName = "Win64";
break;
case UnrealTargetPlatform.XboxOne:
ArchName = "XboxOne";
break;
case UnrealTargetPlatform.PS4:
ArchName = "PS4";
break;
case UnrealTargetPlatform.Android:
switch (TargetData.Architecture)
{
default:
case "arm7": ArchName = "Android/ARMv7"; break;
case "arm64": ArchName = "Android/ARM64"; break;
case "x86": ArchName = "Android/x86"; break;
case "x64": ArchName = "Android/x64"; break;
}
break;
case UnrealTargetPlatform.Linux:
ArchName = "Linux/" + TargetData.Architecture;
break;
case UnrealTargetPlatform.Mac:
ArchName = "Mac";
break;
case UnrealTargetPlatform.HTML5:
ArchName = "HTML5";
break;
case UnrealTargetPlatform.IOS:
ArchName = "IOS";
break;
case UnrealTargetPlatform.TVOS:
ArchName = "TVOS";
break;
default:
throw new AutomationException(String.Format("Unsupported platform '{0}' supplied to GetOutputLibDirectory", TargetData.ToString()));
}
return UnrealBuildTool.DirectoryReference.Combine(RootOutputLibDirectory, ArchName, VisualStudioName);
}
private static void BuildMakefileTarget(PhysXTargetLib TargetLib, TargetPlatformData TargetData, List<string> TargetConfigurations)
{
// FIXME: use absolute path
string MakeCommand = "make";
// FIXME: "j -16" should be tweakable
string MakeOptions = "-j 16";
// Bundled GNU make does not pass job number to subprocesses on Windows, work around that...
if (BuildHostPlatform.Current.Platform == UnrealTargetPlatform.Win64)
{
// Redefining the MAKE variable will cause the -j flag to be passed to child make instances.
MakeOptions = string.Format("{1} \"MAKE={0} {1}\"", MakeCommand, MakeOptions);
}
// this will be replaced for HTML5 - see SetupBuildForTargetLibAndPlatform() for details
Dictionary<string, string> BuildMap = new Dictionary<string, string>()
{
{"debug", "debug"},
{"checked", "checked"},
{"profile", "profile"},
{"release", "release"}
};
switch (TargetData.Platform)
{
case UnrealTargetPlatform.Android:
{
// Use make from Android toolchain
string NDKDirectory = Environment.GetEnvironmentVariable("NDKROOT");
// don't register if we don't have an NDKROOT specified
if (String.IsNullOrEmpty(NDKDirectory))
{
throw new BuildException("NDKROOT is not specified; cannot build Android.");
}
NDKDirectory = NDKDirectory.Replace("\"", "");
MakeCommand = NDKDirectory + "\\prebuilt\\windows-x86_64\\bin\\make.exe";
}
break;
case UnrealTargetPlatform.HTML5:
{
// Use emscripten toolchain
MakeCommand = "python";
MakeOptions = HTML5SDKInfo.EMSCRIPTEN_ROOT + "\\emmake make";
BuildMap = new Dictionary<string, string>()
{
{"debug", "Build-O0"},
{"checked", "Build-O2"},
{"profile", "Build-Oz"},
{"release", "Build-O3"}
};
}
break;
default:
break;
}
// makefile build has "projects" for every configuration. However, we abstract away from that by assuming GetProjectDirectory points to the "meta-project"
foreach (string BuildConfig in TargetConfigurations)
{
UnrealBuildTool.DirectoryReference MetaProjectDirectory = GetProjectDirectory(TargetLib, TargetData);
UnrealBuildTool.DirectoryReference ConfigDirectory = UnrealBuildTool.DirectoryReference.Combine(MetaProjectDirectory, BuildMap[BuildConfig]);
string Makefile = UnrealBuildTool.FileReference.Combine(ConfigDirectory, "Makefile").ToString();
if (!FileExists(Makefile))
{
throw new AutomationException(String.Format("Unabled to build {0} - file not found.", Makefile));
}
ProcessStartInfo StartInfo = new ProcessStartInfo();
StartInfo.FileName = MakeCommand;
StartInfo.WorkingDirectory = ConfigDirectory.ToString();
StartInfo.Arguments = MakeOptions;
Log("Working in: {0}", StartInfo.WorkingDirectory);
Log("{0} {1}", StartInfo.FileName, StartInfo.Arguments);
if (RunLocalProcessAndLogOutput(StartInfo) != 0)
{
throw new AutomationException(String.Format("Unabled to build {0}. Build process failed.", Makefile));
}
}
}
private static string GetCMakeTargetDirectoryName(TargetPlatformData TargetData, WindowsCompiler TargetWindowsCompiler)
{
string VisualStudioDirectoryName;
switch (TargetWindowsCompiler)
{
case WindowsCompiler.VisualStudio2013:
VisualStudioDirectoryName = "VS2013";
break;
case WindowsCompiler.VisualStudio2015:
VisualStudioDirectoryName = "VS2015";
break;
default:
throw new AutomationException(String.Format("Non-CMake or unsupported windows compiler '{0}' supplied to GetCMakeTargetDirectoryName", TargetWindowsCompiler));
}
switch (TargetData.Platform)
{
// Note slashes need to be '/' as this gets string-composed in the CMake script with other paths
case UnrealTargetPlatform.Win32:
return "Win32/" + VisualStudioDirectoryName;
case UnrealTargetPlatform.Win64:
return "Win64/" + VisualStudioDirectoryName;
case UnrealTargetPlatform.Android:
switch (TargetData.Architecture)
{
default:
case "armv7": return "Android/ARMv7";
case "arm64": return "Android/ARM64";
case "x86": return "Android/x86";
case "x64": return "Android/x64";
}
case UnrealTargetPlatform.HTML5:
default:
return TargetData.Platform.ToString();
}
}
private static void BuildTargetLibForPlatform(PhysXTargetLib TargetLib, TargetPlatformData TargetData, List<string> TargetConfigurations, List<WindowsCompiler> TargetWindowsCompilers)
{
if (DoesPlatformUseMSBuild(TargetData))
{
switch (TargetData.Platform)
{
case UnrealTargetPlatform.Win32:
case UnrealTargetPlatform.Win64:
// for windows platforms we support building against multiple compilers
foreach (WindowsCompiler TargetWindowsCompiler in TargetWindowsCompilers)
{
BuildMSBuildTarget(TargetLib, TargetData, TargetConfigurations, TargetWindowsCompiler);
}
break;
case UnrealTargetPlatform.XboxOne:
BuildXboxTarget(TargetLib, TargetData, TargetConfigurations);
break;
default:
BuildMSBuildTarget(TargetLib, TargetData, TargetConfigurations);
break;
}
}
else if (DoesPlatformUseXcode(TargetData))
{
BuildXcodeTarget(TargetLib, TargetData, TargetConfigurations);
}
else if (DoesPlatformUseMakefiles(TargetData))
{
BuildMakefileTarget(TargetLib, TargetData, TargetConfigurations);
}
else
{
throw new AutomationException(String.Format("Unsupported target platform '{0}' passed to BuildTargetLibForPlatform", TargetData));
}
}
private static DirectoryReference GetProjectDirectory(TargetPlatformData TargetData, WindowsCompiler TargetWindowsCompiler = WindowsCompiler.VisualStudio2015_DEPRECATED)
{
DirectoryReference Directory = SourceRootDirectory;
return(DirectoryReference.Combine(Directory, "compiler", GetCMakeTargetDirectoryName(TargetData, TargetWindowsCompiler)));
}
