VCProject* SBWorkspace::generateGlueProject() const
{
// Get a set of all configurations appearing in all projects
StringSet slnConfigs;
for (auto project : m_openProjects) {
const StringSet& configs = project.second->getSelectedConfigurations();
slnConfigs.insert(configs.begin(), configs.end());
}
// Get the template
VSTemplate* vstemplate = VSTemplate::getTemplate("WinRT");
sbAssertWithTelemetry(vstemplate, "Failed to get WinRT VS template");
// Set up basis template parameters
string projectName = getName() + "WinRT";
VSTemplateParameters templateParams;
templateParams.setProjectName(projectName);
// Expand the template and get the template project
vstemplate->expand(sb_dirname(getPath()), templateParams);
const VSTemplateProjectVec& projTemplates = vstemplate->getProjects();
sbAssertWithTelemetry(projTemplates.size() == 1, "Unexpected WinRT template size");
// Create the glue project and add it to the solution
VCProject* glueProject = new VCProject(projTemplates.front());
// Get path to WinObjC SDK
BuildSettings globalBS(NULL);
String useRelativeSdkPath = globalBS.getValue("VSIMPORTER_RELATIVE_SDK_PATH");
String sdkDir = globalBS.getValue("WINOBJC_SDK_ROOT");
// Try to create a relative path to the SDK, if requested
if (strToUpper(useRelativeSdkPath) == "YES") {
String projectDir = sb_dirname(projTemplates.front()->getPath());
sdkDir = getRelativePath(projectDir, sdkDir);
}
glueProject->addGlobalProperty("WINOBJC_SDK_ROOT", platformPath(sdkDir), "'$(WINOBJC_SDK_ROOT)' == ''");
// Set configuration properties
for (auto configName : slnConfigs) {
VCProjectConfiguration *projConfig = glueProject->addConfiguration(configName);
projConfig->setProperty("TargetName", getName());
}
// Set RootNamespace
glueProject->addGlobalProperty("RootNamespace", getName());
return glueProject;
}
SBWorkspace* SBWorkspace::createFromWorkspace(const String& workspaceDir) {
sbAssertWithTelemetry(!s_workspace, "Workspace already exists");
// Create the workspace
s_workspace = new SBWorkspace();
s_workspace->m_workspace = XCWorkspace::createFromFile(workspaceDir);
sbValidateWithTelemetry(s_workspace->m_workspace, "Failed to open main workspace");
// Record location of the workspace
VariableCollectionManager& settingsManager = VariableCollectionManager::get();
settingsManager.setGlobalVar("WORKSPACE_FILE_PATH", workspaceDir);
// Open all projects referenced by the workspace
const StringVec& projPaths = s_workspace->m_workspace->getProjectPaths();
for (unsigned i = 0; i < projPaths.size(); i++) {
s_workspace->openProject(projPaths[i]);
}
s_workspace->findSchemes(workspaceDir);
// A workspace MUST contain at least one scheme
sbValidateWithTelemetry(!s_workspace->m_schemes.empty(), "The workspace does not contain any schemes.");
// A workspace MUST also contain at least one open project
sbValidateWithTelemetry(!s_workspace->m_openProjects.empty(), "The workspace does not contain any valid projects.");
return s_workspace;
}
void SBWorkspace::selectTargets(PotentialTargetsVec& ret) {
String queryMessage;
if (m_workspace) {
queryMessage = "The \"" + getName() + "\" workspace contains multiple targets.";
} else {
queryMessage = "The project contains multiple targets.";
}
// Get all possible targets in the solution
PotentialTargetsVec allTargets;
getAllTargets(allTargets);
// Construct vector of target names for the query, maintaining order
StringVec targetNames;
std::transform(allTargets.begin(), allTargets.end(), back_inserter(targetNames), [](auto kv) { return kv.first->getNameWithType(); });
sbAssertWithTelemetry(!targetNames.empty(), "The workspace contains no targets");
// Query the user for which targets should be queued
std::vector<size_t> selection;
queryListSelection(targetNames, queryMessage, "target", selection);
// Return selection of targets
ret.clear();
std::transform(selection.begin(), selection.end(), back_inserter(ret), [&allTargets](size_t i) { return allTargets[i]; });
}
VCProject* SBWorkspace::generateGlueProject(bool packageable) const {
// Get a set of all configurations appearing in all projects
StringSet slnConfigs;
for (auto project : m_openProjects) {
const StringSet& configs = project.second->getSelectedConfigurations();
slnConfigs.insert(configs.begin(), configs.end());
}
// Get the template
VSTemplate* vstemplate = VSTemplate::getTemplate("WinRT");
sbAssertWithTelemetry(vstemplate, "Failed to get WinRT VS template");
// Set up basis template parameters
string projectName = getName() + "WinRT";
VSTemplateParameters templateParams;
templateParams.setProjectName(projectName);
templateParams.setIsPackageable(packageable);
// Expand the template and get the template project
vstemplate->expand(sb_dirname(getPath()), templateParams);
const VSTemplateProjectVec& projTemplates = vstemplate->getProjects();
sbAssertWithTelemetry(projTemplates.size() == 1, "Unexpected WinRT template size");
// Create the glue project and add it to the solution
VCProject* glueProject = new VCProject(projTemplates.front());
// Set configuration properties
for (auto configName : slnConfigs) {
VCProjectConfiguration* projConfig = glueProject->addConfiguration(configName);
projConfig->setProperty("TargetName", getName());
}
// Set RootNamespace
glueProject->addGlobalProperty("RootNamespace", getName());
return glueProject;
}
SBWorkspace* SBWorkspace::createFromProject(const String& projectDir) {
sbAssertWithTelemetry(!s_workspace, "Workspace already exists");
// Create the workspace
s_workspace = new SBWorkspace();
// Open project
SBProject* proj = s_workspace->openProject(projectDir);
// Failing to open a project here is fatal
sbValidateWithTelemetry(proj, "Failed to open main project");
// Save a ptr to the project, so later we can access the "main" project
s_workspace->m_mainProject = proj;
return s_workspace;
}
static VCProjectItem* addFileToVSInternal(const PBXFile* file, VCProject& proj, const BuildSettings& bs, bool isVariant, const VCItemHint* itemHint)
{
// Add all children of any PBXVariantGroup
const PBXVariantGroup* variantGroup = dynamic_cast<const PBXVariantGroup*>(file);
if (variantGroup) {
const ConstFileList& children = variantGroup->getChildren();
for (auto child : children) {
addFileToVSInternal(child, proj, bs, true, itemHint);
}
return NULL;
}
// Get the real and virtual paths for the file in Xcode
String realPath = file->getFullPath();
String virtualPath = file->getVirtualPath();
// Fix up virtual path for variant files
// Resources/MainStoryboard.storyboard/en => Resources/en/MainStoryboard.storyboard
if (isVariant) {
String variantLang = sb_basename(virtualPath);
String filePath = sb_dirname(virtualPath);
String fixedDir = joinPaths(sb_dirname(filePath), variantLang);
virtualPath = joinPaths(fixedDir, sb_basename(filePath));
}
// Compute the VS ItemType for the file
String fileType = file->getFileType();
String vsType = getVSItemType(fileType);
if (vsType == "Unknown") {
if (itemHint && !itemHint->defaultType.empty()) {
vsType = itemHint->defaultType;
}
}
// Take into account path override
bool useRelativePath = true;
if (itemHint && !itemHint->pathOverride.empty()) {
sbAssertWithTelemetry(!isVariant, "Unexpected path override for variant file: " + realPath);
realPath = itemHint->pathOverride;
useRelativePath = false;
}
// Take into account filter override
string filterPath = sb_dirname(virtualPath);
if (itemHint && !itemHint->filterOverride.empty()) {
filterPath = itemHint->filterOverride;
}
// Add the item to the project
VCProjectItem* item = NULL;
if (useRelativePath) {
item = addRelativeFilePathToVS(vsType, realPath, filterPath, proj, bs);
} else {
item = proj.addItem(vsType, realPath, filterPath);
}
// Handle Variant files
if (isVariant) {
String variantDir = sb_basename(sb_dirname(realPath));
item->setDefinition("VariantDir", variantDir);
}
return item;
}
VSSolution::VSSolution(const std::string& absPath, unsigned version)
: m_absFilePath(platformPath(sanitizePath(absPath))), m_version(version) {
sbAssertWithTelemetry(isAbsolutePath(absPath), "Path to VS solution is not absolute");
}
int main(int argc, char* argv[])
{
StringSet targets, configurations, schemes;
String sdkRoot, projectPath, xcconfigPath, workspacePath;
String logVerbosity("warning");
int projectSet = 0;
int workspaceSet = 0;
int interactiveFlag = 0;
int relativeSdkFlag = 0;
int genProjectionsFlag = 0;
int allTargets = 0;
int allSchemes = 0;
int mode = GenerateMode;
static struct option long_options[] = {
{"version", no_argument, 0, 0},
{"usage", no_argument, 0, 0},
{"help", no_argument, 0, 0},
{"interactive", no_argument, &interactiveFlag, 1},
{"loglevel", required_argument, 0, 0},
{"sdk", required_argument, 0, 0},
{"list", no_argument, &mode, ListMode},
{"project", required_argument, &projectSet, 1},
{"target", required_argument, 0, 0},
{"alltargets", no_argument, &allTargets, 1},
{"configuration", required_argument, 0, 0},
{"xcconfig", required_argument, 0, 0},
{"workspace", required_argument, &workspaceSet, 1},
{"scheme", required_argument, 0, 0},
{"allschemes", required_argument, &allSchemes, 1},
{"relativepath", no_argument, &relativeSdkFlag, 1},
{ "genprojections", no_argument, &genProjectionsFlag, 1 },
{0, 0, 0, 0}
};
int numOptions = sizeof(long_options) / sizeof(struct option) - 1;
while (1) {
int option_index = 0;
int c = getopt_long_only(argc, argv, "", long_options, &option_index);
if (c == -1) {
break;
} else if (c || option_index < 0 || option_index >= numOptions) {
printUsage(argv[0], false);
exit(EXIT_FAILURE);
}
// Process options
switch (option_index) {
case 0:
printVersion(argv[0]);
exit(EXIT_SUCCESS);
break;
case 1:
printUsage(argv[0], false);
exit(EXIT_SUCCESS);
break;
case 2:
printUsage(argv[0], true);
exit(EXIT_SUCCESS);
break;
case 4:
logVerbosity = strToLower(optarg);
break;
case 5:
sdkRoot = optarg;
break;
case 7:
projectPath = optarg;
break;
case 8:
targets.insert(optarg);
break;
case 10:
configurations.insert(optarg);
break;
case 11:
xcconfigPath = optarg;
break;
case 12:
workspacePath = optarg;
break;
case 13:
schemes.insert(optarg);
break;
default:
// Do nothing
break;
}
}
// Set AI Telemetry_Init
TELEMETRY_INIT(L"AIF-23c336e0-1e7e-43ba-a5ce-eb9dc8a06d34");
if (checkTelemetryOptIn())
{
TELEMETRY_ENABLE();
}
else
{
TELEMETRY_DISABLE();
}
TELEMETRY_SET_INTERNAL(isMSFTInternalMachine());
String machineID = getMachineID();
if (!machineID.empty())
{
TELEMETRY_SET_MACHINEID(machineID.c_str());
}
TELEMETRY_EVENT_DATA(L"VSImporterStart", getProductVersion().c_str());
// Process non-option ARGV-elements
VariableCollectionManager& settingsManager = VariableCollectionManager::get();
while (optind < argc) {
String arg = argv[optind];
if (arg == "/?") {
// Due to issue 6715724, flush before exiting
TELEMETRY_EVENT_DATA(L"VSImporterIncomplete", "printUsage");
TELEMETRY_FLUSH();
printUsage(argv[0], true);
exit(EXIT_SUCCESS);
} else if (arg.find_first_of('=') != String::npos) {
settingsManager.processGlobalAssignment(arg);
} else {
sbValidateWithTelemetry(0, "Unsupported argument: " + arg);
}
optind++;
}
// Set output format
settingsManager.setGlobalVar("VSIMPORTER_OUTPUT_FORMAT", "WinStore10");
// Set logging level
SBLogLevel logLevel;
if (logVerbosity == "debug")
logLevel = SB_DEBUG;
else if (logVerbosity == "info")
logLevel = SB_INFO;
else if (logVerbosity == "warning")
logLevel = SB_WARN;
else if (logVerbosity == "error")
logLevel = SB_ERROR;
else if (!logVerbosity.empty()) {
sbValidateWithTelemetry(0, "Unrecognized logging verbosity: " + logVerbosity);
}
SBLog::setVerbosity(logLevel);
// Look for a project file in current directory, if one hasn't been explicitly specified
if (!projectSet && !workspaceSet) {
StringList projects;
findFiles(".", "*.xcodeproj", DT_DIR, false, projects);
StringList workspaces;
findFiles(".", "*.xcworkspace", DT_DIR, false, workspaces);
if (!workspaces.empty()) {
sbValidateWithTelemetry(workspaces.size() == 1, "Multiple workspaces found. Select the workspace to use with the -workspace option.");
workspacePath = workspaces.front();
workspaceSet = 1;
}
else if (!projects.empty()) {
sbValidateWithTelemetry(projects.size() == 1, "Multiple projects found. Select the project to use with the -project option.");
projectPath = projects.front();
projectSet = 1;
} else {
sbValidateWithTelemetry(0, "The current directory does not contain a project or workspace.");
}
}
// Set the architecture
String arch = "msvc";
settingsManager.setGlobalVar("ARCHS", arch);
settingsManager.setGlobalVar("CURRENT_ARCH", arch);
// Make sure workspace arguments are valid
if (workspaceSet) {
sbValidateWithTelemetry(!projectSet, "Cannot specify both a project and a workspace.");
}
// Disallow specifying schemes and targets together
sbValidateWithTelemetry((schemes.empty() && !allSchemes) || (targets.empty() && !allTargets), "Cannot specify schemes and targets together.");
// Process allTargets and allSchemes flags
if (allSchemes)
schemes.clear();
if (allTargets)
targets.clear();
// Initialize global settings
String binaryDir = sb_dirname(getBinaryLocation());
sbValidateWithTelemetry(!binaryDir.empty(), "Failed to resolve binary directory.");
settingsManager.setGlobalVar("VSIMPORTER_BINARY_DIR", binaryDir);
settingsManager.setGlobalVar("VSIMPORTER_INTERACTIVE", interactiveFlag ? "YES" : "NO");
settingsManager.setGlobalVar("VSIMPORTER_RELATIVE_SDK_PATH", relativeSdkFlag ? "YES" : "NO");
if (!sdkRoot.empty()) {
sdkRoot = joinPaths(getcwd(), sdkRoot);
} else {
sdkRoot = joinPaths(binaryDir, "..");
}
settingsManager.setGlobalVar("WINOBJC_SDK_ROOT", sdkRoot);
// Add useful environment variables to global settings
String username;
sbValidateWithTelemetry(sb_getenv("USERNAME", username), "Failed to get current username.");
settingsManager.setGlobalVar("USER", username);
// Read xcconfig file specified from the command line
if (!xcconfigPath.empty())
settingsManager.processGlobalConfigFile(xcconfigPath);
// Read xcconfig file specified by the XCODE_XCCONFIG_FILE environment variable
String xcconfigFile;
if (sb_getenv("XCODE_XCCONFIG_FILE", xcconfigFile))
settingsManager.processGlobalConfigFile(xcconfigFile);
// Validate WinObjC SDK directory
checkWinObjCSDK();
// Create a workspace
SBWorkspace *mainWorkspace;
if (workspaceSet) {
mainWorkspace = SBWorkspace::createFromWorkspace(workspacePath);
} else if (projectSet) {
mainWorkspace = SBWorkspace::createFromProject(projectPath);
} else {
sbAssertWithTelemetry(0); // non-reachable
}
if (mode == ListMode) {
mainWorkspace->printSummary();
} else if (mode == GenerateMode) {
if (!schemes.empty() || allSchemes) {
mainWorkspace->queueSchemes(schemes, configurations);
} else {
mainWorkspace->queueTargets(targets, configurations);
}
mainWorkspace->generateFiles(genProjectionsFlag);
} else {
sbAssertWithTelemetry(0); // non-reachable
}
TELEMETRY_EVENT_DATA(L"VSImporterComplete", getProductVersion().c_str());
TELEMETRY_FLUSH();
return EXIT_SUCCESS;
}