/**
* FIXME module editing is generally done through descriptor and reload. Although I do not mind
* exposing add/remove methods here, it should be consistent!
*/
@Nullable
public Dependency addDependency(@NotNull SModuleReference moduleRef, boolean reexport) {
assertCanChange();
ModuleDescriptor descriptor = getModuleDescriptor();
if (descriptor == null) {
return null;
}
for (Dependency dep : descriptor.getDependencies()) {
if (!EqualUtil.equals(dep.getModuleRef(), moduleRef)) {
continue;
}
if (reexport && !dep.isReexport()) {
dep.setReexport(true);
dependenciesChanged();
fireChanged();
setChanged();
}
return dep;
}
Dependency dep = new Dependency();
dep.setModuleRef(moduleRef);
dep.setReexport(reexport);
descriptor.getDependencies().add(dep);
dependenciesChanged();
fireChanged();
setChanged();
return dep;
}
protected Iterable<ModelRoot> loadRoots() {
ModuleDescriptor descriptor = getModuleDescriptor();
if (descriptor == null) {
return Collections.emptyList();
}
List<ModelRoot> result = new ArrayList<ModelRoot>();
for (ModelRootDescriptor modelRoot : descriptor.getModelRootDescriptors()) {
try {
ModelRootFactory modelRootFactory =
PersistenceFacade.getInstance().getModelRootFactory(modelRoot.getType());
if (modelRootFactory == null) {
LOG.error(
"Unknown model root type: `" + modelRoot.getType() + "'. Requested by: " + this);
continue;
}
ModelRoot root = modelRootFactory.create();
Memento mementoWithFS = new MementoWithFS(modelRoot.getMemento(), myFileSystem);
root.load(mementoWithFS);
result.add(root);
} catch (Exception e) {
LOG.error(
"Error loading models from root with type: `"
+ modelRoot.getType()
+ "'. Requested by: "
+ this,
e);
}
}
return result;
}
public ModuleDescriptor loadModuleDescriptor(IFile file) {
try {
String filePath = file.getPath();
if (filePath.endsWith(SLASH_META_INF_MODULE_XML)) {
DeploymentDescriptor deploymentDescriptor =
DeploymentDescriptorPersistence.loadDeploymentDescriptor(file);
ModuleDescriptor result = null;
IFile realDescriptorFile = getRealDescriptorFile(filePath, deploymentDescriptor);
if (realDescriptorFile != null) {
result = loadModuleDescriptor(realDescriptorFile);
}
// TODO create module without sources
if (result != null) {
result.setDeploymentDescriptor(deploymentDescriptor);
// TODO fix stubs
}
return result;
} else {
return DescriptorIOFacade.getInstance().fromFileType(file).readFromFile(file);
}
} catch (Exception t) {
LOG.error("Fail to load module from descriptor " + file.getPath(), t);
return null;
}
}
@Override
public Iterable<SDependency> getDeclaredDependencies() {
assertCanRead();
ModuleDescriptor descriptor = getModuleDescriptor();
if (descriptor == null) {
return Collections.emptyList();
}
HashSet<SDependency> result = new HashSet<SDependency>();
final SRepository repo = getRepository();
if (repo == null) {
throw new IllegalStateException(
"It is not possible to resolve all declared dependencies with a null repository : module "
+ this);
}
// add declared dependencies
for (Dependency d : descriptor.getDependencies()) {
result.add(new SDependencyImpl(d.getModuleRef(), repo, d.getScope(), d.isReexport()));
}
// add dependencies provided by devkits as nonreexport dependencies
for (SModuleReference usedDevkit : descriptor.getUsedDevkits()) {
final SModule devkit = usedDevkit.resolve(repo);
if (DevKit.class.isInstance(devkit)) {
for (Solution solution : ((DevKit) devkit).getAllExportedSolutions()) {
result.add(
new SDependencyImpl(
solution.getModuleReference(), repo, SDependencyScope.DEFAULT, false));
}
}
}
return result;
}
/**
* @deprecated shall be removed once tests in MPS plugin got fixed
* (FacetTests.testAddRemoveUsedLanguage(), testFacetInitialized()
*/
@Deprecated
@ToRemove(version = 3.4)
public final Collection<SModuleReference> getUsedLanguagesReferences() {
assertCanRead();
ModuleDescriptor descriptor = getModuleDescriptor();
if (descriptor == null) {
return Collections.emptySet();
}
return Collections.unmodifiableCollection(descriptor.getUsedLanguages());
}
private void processExcludes(
@NotNull IFile descriptorFile, ModuleDescriptor descriptor, Set<IFile> excludes) {
if (descriptor == null || descriptorFile.isReadOnly()) {
return;
}
for (String p : descriptor.getSourcePaths()) {
excludes.add(FileSystem.getInstance().getFileByPath(p));
}
IFile genPath = ProjectPathUtil.getGeneratorOutputPath(descriptorFile.getParent(), descriptor);
if (genPath != null) {
excludes.add(genPath);
if (!descriptorFile.isReadOnly()) {
FileSystem.getInstance().getFileByPath(FileGenerationUtil.getCachesPath(genPath.getPath()));
}
}
IFile testsGenPath = ProjectPathUtil.getGeneratorTestsOutputPath(descriptorFile, descriptor);
if (testsGenPath != null) {
excludes.add(testsGenPath);
if (!descriptorFile.isReadOnly()) {
FileSystem.getInstance()
.getFileByPath(FileGenerationUtil.getCachesPath(testsGenPath.getPath()));
}
}
for (ModelRootDescriptor rootDescriptor : descriptor.getModelRootDescriptors()) {
ModelRoot root = rootDescriptor.getRoot();
if (root == null
|| root.getManager() != null && root.getManager() != LanguageID.JAVA_MANAGER) {
continue;
}
excludes.add(FileSystem.getInstance().getFileByPath(root.getPath()));
}
IFile classesGen = ProjectPathUtil.getClassesGenFolder(descriptorFile.getParent(), false);
if (classesGen != null) {
excludes.add(classesGen);
}
// todo: specify what kind of descriptor can be input for this method
if (descriptor instanceof LanguageDescriptor) {
IFile generatorClassesGen =
ProjectPathUtil.getClassesGenFolder(descriptorFile.getParent(), true);
if (generatorClassesGen != null) {
excludes.add(generatorClassesGen);
}
}
for (String entry : descriptor.getAdditionalJavaStubPaths()) {
excludes.add(FileSystem.getInstance().getFileByPath(entry));
}
}
/**
* AP the contract is not clear: when should this method be called? it seems to be our internal
* mechanism which is exposed to the client it must be done on the fs update (actually it is
* #update method here) Nobody must recount the module dependency versions from the outside
*
* <p>Currently happens only during migration;
*
* @deprecated please do not use
*/
@Deprecated
@ToRemove(version = 3.4)
public void validateLanguageVersions() {
assertCanChange();
ModuleDescriptor md = getModuleDescriptor();
if (md == null) {
return;
}
Map<SLanguage, Integer> oldLanguageVersions = md.getLanguageVersions();
Map<SLanguage, Integer> newLanguageVersions = new HashMap<SLanguage, Integer>();
LangAndDevkits langAndDevkits = collectLanguagesAndDevkits();
Set<SLanguage> usedLanguages = langAndDevkits.languages;
Set<SModuleReference> devkits = langAndDevkits.devkits;
SLanguageHierarchy languageHierarchy = new SLanguageHierarchy(usedLanguages);
Reference<Boolean> hasErrors = new Reference<>(false);
Set<SLanguage> extendingLangsClosure =
languageHierarchy.getExtendedLangs(language -> hasErrors.set(true));
if (hasErrors.get()) {
return;
}
if (!md.hasLanguageVersions()) {
for (SLanguage lang : extendingLangsClosure) {
newLanguageVersions.put(lang, 0);
}
md.getUsedDevkits().addAll(devkits);
md.setHasLanguageVersions(true);
} else {
for (SLanguage lang : extendingLangsClosure) {
if (oldLanguageVersions.containsKey(lang)) {
newLanguageVersions.put(lang, oldLanguageVersions.get(lang));
} else {
checkModelVersionsAreValid(lang);
newLanguageVersions.put(lang, lang.getLanguageVersion());
// this check is needed to avoid numerous changes in msd/mpl files when opening project
// without dependency versions
// here we assume that validateLanguageVersions() is called before
// validateDependencyVersions()
// todo: remove this hack after 3.4
if (md.hasDependencyVersions()) {
setChanged();
}
}
}
if (!md.getUsedDevkits().containsAll(devkits)) {
// intentionally no clean(), augmentation only, just in case there's anything vital already.
md.getUsedDevkits().addAll(devkits);
setChanged();
}
if (!oldLanguageVersions.equals(newLanguageVersions)) {
// todo: remove this hack after 3.4
if (md.hasDependencyVersions()) {
setChanged();
}
}
}
oldLanguageVersions.clear();
oldLanguageVersions.putAll(newLanguageVersions);
}
// unlike similar method in SModel, doesn't take SRepository now
// according to present use cases, we iterate modules of a repository and update them,
// hence it's superficial to pass repository in here (although might add one for consistency)
public void updateExternalReferences() {
ModuleDescriptor moduleDescriptor = getModuleDescriptor();
final SRepository repository = getRepository();
if (moduleDescriptor == null || repository == null) {
return;
}
if (moduleDescriptor.updateModelRefs(repository)) {
setChanged();
}
if (moduleDescriptor.updateModuleRefs(repository)) {
setChanged();
}
}
public void removeDependency(@NotNull Dependency dependency) {
assertCanChange();
ModuleDescriptor descriptor = getModuleDescriptor();
if (descriptor == null) {
return;
}
if (!descriptor.getDependencies().contains(dependency)) {
return;
}
descriptor.getDependencies().remove(dependency);
dependenciesChanged();
fireChanged();
setChanged();
}
@Override
public List<String> getErrors() {
List<String> errors = new ArrayList<String>();
Throwable loadException = myModule.getModuleDescriptor().getLoadException();
if (loadException != null) {
errors.add("Couldn't load module: " + loadException.getMessage());
return errors;
}
ModuleDescriptor descriptor = myModule.getModuleDescriptor();
// null?
for (Dependency dep : descriptor.getDependencies()) {
SModuleReference moduleRef = dep.getModuleRef();
if (MPSModuleRepository.getInstance().getModule(moduleRef) == null) {
errors.add("Can't find dependency: " + moduleRef.getModuleName());
}
}
for (SModuleReference reference : descriptor.getUsedLanguages()) {
if (ModuleRepositoryFacade.getInstance().getModule(reference, Language.class) == null) {
errors.add("Can't find used language: " + reference.getModuleName());
}
}
for (SModuleReference reference : descriptor.getUsedDevkits()) {
if (MPSModuleRepository.getInstance().getModule(reference) == null) {
errors.add("Can't find used devkit: " + reference.getModuleName());
}
}
if (descriptor.getSourcePaths() != null && !myModule.isPackaged()) {
for (String sourcePath : descriptor.getSourcePaths()) {
IFile file = FileSystem.getInstance().getFileByPath(sourcePath);
if (file == null || !file.exists()) {
errors.add("Can't find source path: " + sourcePath);
}
}
}
if (descriptor.getAdditionalJavaStubPaths() != null) {
for (String path : descriptor.getAdditionalJavaStubPaths()) {
IFile file = FileSystem.getInstance().getFileByPath(path);
if (file == null || !file.exists()) {
if (new File(path).exists()) {
errors.add("Idea VFS is not up-to-date. Can't find library: " + path);
} else {
errors.add("Can't find library: " + path);
}
}
}
}
// todo: =(
if (!(myModule instanceof Generator)) {
errors.addAll(validateDependenciesOnGenerators());
}
return errors;
}
public ModuleHandle loadHandle(ModelInputStream stream) throws IOException {
if (stream.readShort() != 0x1be0) throw new IOException("bad stream: no start marker");
String file = stream.readString();
ModuleDescriptor descriptor;
int type = stream.readByte();
if (type == 1) {
descriptor = new LanguageDescriptor();
} else if (type == 2) {
descriptor = new SolutionDescriptor();
} else if (type == 3) {
descriptor = new DevkitDescriptor();
} else {
throw new IOException("broken stream: invalid descriptor type");
}
descriptor.load(stream);
return new ModuleHandle(FileSystem.getInstance().getFileByPath(file), descriptor);
}
public TempModule(Set<ModelRootDescriptor> modelRoots) {
SModuleId id = ModuleId.regular();
SModuleReference reference = new ModuleReference("TempModule" + id, id);
setModuleReference(reference);
myDescriptor = new ModuleDescriptor();
myDescriptor.getModelRootDescriptors().addAll(modelRoots);
setModuleDescriptor(myDescriptor, false);
}
public String addClassPathItem(String path) {
if (SetSequence.fromSet(myClassPaths).contains(path)) {
path = null;
} else {
SetSequence.fromSet(myClassPaths).addElement(path);
myDescriptor.getAdditionalJavaStubPaths().add(path);
}
fireChanged();
return path;
}
protected void updateFacets() {
assertCanChange();
ModuleDescriptor descriptor = getModuleDescriptor();
if (descriptor == null) {
return;
}
for (ModuleFacetBase facet : myFacets) {
facet.dispose();
}
myFacets.clear();
Map<String, Memento> config = new HashMap<String, Memento>();
for (ModuleFacetDescriptor facetDescriptors : descriptor.getModuleFacetDescriptors()) {
config.put(facetDescriptors.getType(), facetDescriptors.getMemento());
}
Set<String> types = new HashSet<String>();
collectMandatoryFacetTypes(types);
types.addAll(config.keySet());
for (String facetType : types) {
FacetFactory factory = FacetsFacade.getInstance().getFacetFactory(facetType);
if (factory == null) {
LOG.error("no registered factory for a facet with type=`" + facetType + "'");
continue;
}
SModuleFacet newFacet = factory.create();
if (!(newFacet instanceof ModuleFacetBase)) {
LOG.error("broken facet factory: " + factory.getClass().getName());
continue;
}
ModuleFacetBase facet = (ModuleFacetBase) newFacet;
Memento m = config.get(facetType);
facet = setupFacet(facet, m);
if (facet != null) {
myFacets.add(facet);
}
}
}
/**
* FIXME Obviously it must be internal module method: it must be done on the fs update (actually
* it is #update method here) Nobody must recount the module dependency versions from the outside
* AP
*
* <p>Currently happens only during migration;
*
* @deprecated please do not use
*/
@Deprecated
@ToRemove(version = 3.4)
public void validateDependencyVersions() {
assertCanChange();
ModuleDescriptor md = getModuleDescriptor();
if (md == null) {
return;
}
Map<SModuleReference, Integer> oldDepVersions = md.getDependencyVersions();
Map<SModuleReference, Integer> newDepVersions = new HashMap<SModuleReference, Integer>();
Set<SModule> visible = new LinkedHashSet<SModule>();
visible.add(this);
PostingWarningsErrorHandler handler = new PostingWarningsErrorHandler();
Collection<SModule> dependentModules =
new GlobalModuleDependenciesManager(this, handler).getModules(Deptype.VISIBLE);
if (handler.hasErrors()) {
return;
}
visible.addAll(dependentModules);
if (!md.hasDependencyVersions()) {
for (SModule dep : visible) {
newDepVersions.put(dep.getModuleReference(), 0);
}
md.setHasDependencyVersions(true);
} else {
for (SModule dep : visible) {
if (oldDepVersions.containsKey(dep.getModuleReference())) {
newDepVersions.put(
dep.getModuleReference(), oldDepVersions.get(dep.getModuleReference()));
} else {
newDepVersions.put(dep.getModuleReference(), ((AbstractModule) dep).getModuleVersion());
setChanged();
}
}
if (oldDepVersions.size() != newDepVersions.size()) {
setChanged();
}
}
oldDepVersions.clear();
oldDepVersions.putAll(newDepVersions);
}
/**
* has a fallback if the dependency is absent in the module descriptor. if it happens then returns
* simply the current dep. module version
*
* @param check is whether to show error for not found version
*/
public int getDependencyVersion(@NotNull SModule dependency, boolean check) {
ModuleDescriptor moduleDescriptor = getModuleDescriptor();
if (!checkDescriptorNotNull(moduleDescriptor)) {
return -1;
}
Integer res = moduleDescriptor.getDependencyVersions().get(dependency.getModuleReference());
if (res == null) {
if (check) {
LOG.error(
"#getDependencyVersion can't find a version for module "
+ dependency.getModuleName()
+ " in module "
+ getModuleName()
+ "."
+ " This can either mean that the module is not visible from this module or that "
+ "#validateDependencyVersions() was not called on this module in appropriate moment.",
new Throwable());
}
return ((AbstractModule) dependency).getModuleVersion();
}
return res;
}
public void rename(@NotNull String newName) {
SModuleReference oldRef = getModuleReference();
renameModels(getModuleName(), newName, true);
save(); // see MPS-18743, need to save before setting descriptor
ModuleDescriptor descriptor = getModuleDescriptor();
if (myDescriptorFile != null) {
// fixme AP: this looks awful -- I agree; the right way is to have IFile something immutable
// fixme or just work in <code>WatchedRoots</code> by IFile (not by String) and listen for
// rename
myFileSystem.removeListener(this);
myDescriptorFile.rename(newName + "." + FileUtil.getExtension(myDescriptorFile.getName()));
myFileSystem.addListener(this);
}
if (descriptor != null) {
descriptor.setNamespace(newName);
setModuleDescriptor(descriptor);
}
fireModuleRenamed(oldRef);
}
/**
* has a fallback if the usedLanguage is absent in the module descriptor. if it happens then
* returns simply the current usedLanguage version
*
* @param check is whether to show error for not found version
* @deprecated hack for migration, will be gone after 3.4
*/
@ToRemove(version = 3.4)
@Hack
@Deprecated
public int getUsedLanguageVersion(@NotNull SLanguage usedLanguage, boolean check) {
ModuleDescriptor moduleDescriptor = getModuleDescriptor();
if (!checkDescriptorNotNull(moduleDescriptor)) {
return -1;
}
Integer res = moduleDescriptor.getLanguageVersions().get(usedLanguage);
if (res == null) {
if (check) {
LOG.warn(
String.format(
"#getUsedLanguageVersion can't find a version for language %s in module %s, so it is falling back to the current version of the language. "
+ "Probably the language is not imported into this module or #validateLanguageVersions() was not called on this module in appropriate moment."
+ "NB: there might be migrations which must be applied, however they are not going to.",
usedLanguage.getQualifiedName(), getModuleName()),
new Throwable());
}
return usedLanguage.getLanguageVersion();
}
return res;
}
private static Iterable<SModuleReference> getNonreexportDeps(ModuleDescriptor descr) {
return SetSequence.fromSet(
((Set<jetbrains.mps.project.structure.modules.Dependency>) descr.getDependencies()))
.where(
new IWhereFilter<jetbrains.mps.project.structure.modules.Dependency>() {
public boolean accept(jetbrains.mps.project.structure.modules.Dependency dep) {
return !(dep.isReexport());
}
})
.select(
new ISelector<jetbrains.mps.project.structure.modules.Dependency, SModuleReference>() {
public SModuleReference select(
jetbrains.mps.project.structure.modules.Dependency dep) {
return dep.getModuleRef();
}
});
}
private void fill(SNode module, ModuleDescriptor source) {
SPropertyOperations.set(module, "uuid", source.getUUID());
SPropertyOperations.set(module, "namespace", source.getNamespace());
SPropertyOperations.set(module, "compileInMPS", "" + source.getCompileInMPS());
for (ModelRoot root : source.getModelRoots()) {
SLinkOperations.getTargets(module, "modelRoots", true).add(convert(root));
}
for (Dependency mdep : source.getDependencies()) {
SLinkOperations.getTargets(module, "dependencies", true).add(convert(mdep));
}
for (ModuleReference ref : source.getUsedDevkits()) {
SLinkOperations.getTargets(module, "usedDevkits", true).add(convert(ref));
}
for (ModuleReference ref : source.getUsedLanguages()) {
SLinkOperations.getTargets(module, "usedLanguages", true).add(convert(ref));
}
for (ModelRoot entry : source.getStubModelEntries()) {
SLinkOperations.getTargets(module, "stubModels", true).add(convert(entry));
}
for (String s : source.getSourcePaths()) {
SLinkOperations.getTargets(module, "sourcePaths", true).add(convertSourcePath(s));
}
}
/**
* Convert path from sources module descriptor for using on distribution /classes && /classes_gen
* converts to bundle home path
*
* @param originalPath Original path from sources module descriptor
* @return Converted path, null if path meaningless on packaged module
*/
@Nullable
private String convertPath(
String originalPath,
IFile bundleHome,
IFile sourcesDescriptorFile,
ModuleDescriptor descriptor) {
MacroHelper macroHelper = MacrosFactory.forModuleFile(sourcesDescriptorFile);
String canonicalPath = FileUtil.getCanonicalPath(originalPath).toLowerCase();
// /classes && /classes_gen hack
String suffix = descriptor.getCompileInMPS() ? CLASSES_GEN : CLASSES;
if (canonicalPath.endsWith(suffix)) {
// MacrosFactory based on original descriptor file because we use original descriptor file for
// ModuleDescriptor reading, so all paths expanded to original descriptor file
String classes = macroHelper.expandPath("${module}/" + suffix);
if (FileUtil.getCanonicalPath(classes).equalsIgnoreCase(canonicalPath)) {
return bundleHome.getPath();
}
} else if (FileUtil.getCanonicalPath(bundleHome.getPath()).equalsIgnoreCase(canonicalPath)) {
return bundleHome.getPath();
}
// ${mps_home}/lib
String mpsHomeLibPath =
FileUtil.getCanonicalPath(PathManager.getHomePath() + File.separator + "lib").toLowerCase();
if (canonicalPath.startsWith(mpsHomeLibPath)) {
return canonicalPath;
}
// we used to keep originalPath if it has a macro not known to MPS here.
// However, the check has been deprecated in 2012 and thus removed. I'm not 100% sure what
// 'meaningless' in the contract of the method means. Of course, unknown macros make no sense
// for us
// and thus null is legitimate answer, OTOH, custom macros might have a lot of meaning to
// someone else.
//
// ignore paths starts from ${module}/${project} etc
return null;
}
public int getModuleVersion() {
ModuleDescriptor descriptor = getModuleDescriptor();
return descriptor == null ? 0 : descriptor.getModuleVersion();
}
// FIXME: MPS-19756
// TODO: get rid of this code - generate the deployment descriptor during build process
protected void updatePackagedDescriptor() {
// things to do:
// 1) load/prepare stub libraries (getAdditionalJavaStubPaths) from sources descriptor
// 2) load/prepare stub model roots from sources descriptor
// 3) load libraries from deployment descriptor (/classes_gen ?)
// possible cases:
// 1) without deployment descriptor (nothing to do; todo: ?)
// 2) with deployment descriptor, without sources (to do: 3)
// 3) with deployment descriptor, with sources (to do: 1,2,3)
if (!isPackaged()) {
return;
}
ModuleDescriptor descriptor = getModuleDescriptor();
if (descriptor == null) {
return;
}
DeploymentDescriptor deplDescriptor = descriptor.getDeploymentDescriptor();
if (deplDescriptor == null) {
return;
}
final IFile bundleHomeFile = getDescriptorFile().getBundleHome();
if (bundleHomeFile == null) {
return;
}
IFile bundleParent = bundleHomeFile.getParent();
if (bundleParent == null || !bundleParent.exists()) {
return;
}
IFile sourcesDescriptorFile =
ModulesMiner.getSourceDescriptorFile(getDescriptorFile(), deplDescriptor);
if (sourcesDescriptorFile == null) {
// todo: for now it's impossible
assert descriptor instanceof DeploymentDescriptor;
} else {
assert !(descriptor instanceof DeploymentDescriptor);
}
// 1 && 2
if (sourcesDescriptorFile != null) {
// stub libraries
// todo: looks like module.xml contains info about model libs
// ignore stub libraries from source module descriptor, use libs from DeploymentDescriptor
descriptor.getAdditionalJavaStubPaths().clear();
// stub model roots
List<ModelRootDescriptor> toRemove = new ArrayList<ModelRootDescriptor>();
List<ModelRootDescriptor> toAdd = new ArrayList<ModelRootDescriptor>();
for (ModelRootDescriptor rootDescriptor : descriptor.getModelRootDescriptors()) {
String rootDescriptorType = rootDescriptor.getType();
if (rootDescriptorType.equals(PersistenceRegistry.JAVA_CLASSES_ROOT)) {
// trying to load old format from deployment descriptor
String pathElement = rootDescriptor.getMemento().get("path");
boolean update = false;
Memento newMemento = new MementoImpl();
if (pathElement != null) {
// See JavaSourceStubModelRoot & JavaClassStubsModelRoot load methods need to replace
// with super
String convertedPath =
convertPath(pathElement, bundleHomeFile, sourcesDescriptorFile, descriptor);
if (convertedPath != null) {
newMemento.put("path", convertedPath);
update = true;
}
} else {
// trying to load new format : replacing paths like **.jar!/module ->
String contentPath = rootDescriptor.getMemento().get(FileBasedModelRoot.CONTENT_PATH);
List<String> paths = new LinkedList<String>();
for (Memento sourceRoot :
rootDescriptor.getMemento().getChildren(FileBasedModelRoot.SOURCE_ROOTS)) {
paths.add(contentPath + File.separator + sourceRoot.get("location"));
}
newMemento.put(FileBasedModelRoot.CONTENT_PATH, bundleParent.getPath());
Memento newMementoChild = newMemento.createChild(FileBasedModelRoot.SOURCE_ROOTS);
for (String path : paths) {
String convertedPath =
convertPath(path, bundleHomeFile, sourcesDescriptorFile, descriptor);
if (convertedPath != null) {
newMementoChild.put(
"location",
convertedPath.replace(newMemento.get(FileBasedModelRoot.CONTENT_PATH), ""));
update = true;
}
}
}
if (update) {
toAdd.add(new ModelRootDescriptor(rootDescriptorType, newMemento));
}
toRemove.add(rootDescriptor);
}
}
descriptor.getModelRootDescriptors().removeAll(toRemove);
descriptor.getModelRootDescriptors().addAll(toAdd);
}
// 3
for (String jarFile : deplDescriptor.getLibraries()) {
IFile jar =
jarFile.startsWith("/")
? myFileSystem.getFile(PathManager.getHomePath() + jarFile)
: bundleParent.getDescendant(jarFile);
if (jar.exists()) {
String path = jar.getPath();
descriptor.getAdditionalJavaStubPaths().add(path);
descriptor.getModelRootDescriptors().add(ModelRootDescriptor.getJavaStubsModelRoot(jar));
}
}
}
private List<DepLink> dependencies(DependencyUtil.Role role, SModuleReference moduleRef) {
List<DepLink> result = ListSequence.fromList(new ArrayList<DepLink>());
SModule module = moduleRef.resolve(myRepo);
ModuleDescriptor descr = ((AbstractModule) module).getModuleDescriptor();
if (descr == null) {
return result;
}
switch (role) {
case OwnedGenerator:
case None:
// first step
addDeps(
result,
descr.getUsedDevkits(),
DependencyUtil.Role.UsedDevkit,
DependencyUtil.LinkType.UsesDevkit);
for (SLanguage lang : module.getUsedLanguages()) {
SModule langModule = lang.getSourceModule();
if (langModule != null) {
ListSequence.fromList(result)
.addElement(
new DepLink(
langModule.getModuleReference(),
DependencyUtil.Role.UsedLanguage,
DependencyUtil.LinkType.UsesLanguage));
}
}
for (SDependency dep : module.getDeclaredDependencies()) {
switch (dep.getScope()) {
case EXTENDS:
SModule t = dep.getTarget();
if (t instanceof Language) {
ListSequence.fromList(result)
.addElement(
new DepLink(
dep.getTargetModule(),
DependencyUtil.Role.RegularDependency,
DependencyUtil.LinkType.ExtendsLanguage));
} else if (t instanceof Generator) {
ListSequence.fromList(result)
.addElement(
new DepLink(
dep.getTargetModule(),
DependencyUtil.Role.RegularDependency,
DependencyUtil.LinkType.ExtendsGenerator));
} else {
// just in case module could not be resolved
ListSequence.fromList(result)
.addElement(
new DepLink(
dep.getTargetModule(),
DependencyUtil.Role.RegularDependency,
DependencyUtil.LinkType.Depends));
}
break;
case DESIGN:
ListSequence.fromList(result)
.addElement(
new DepLink(
dep.getTargetModule(),
DependencyUtil.Role.RegularDependency,
DependencyUtil.LinkType.Depends));
break;
case RUNTIME:
ListSequence.fromList(result)
.addElement(
new DepLink(
dep.getTargetModule(),
DependencyUtil.Role.RuntimeDependency,
DependencyUtil.LinkType.Depends));
break;
default:
ListSequence.fromList(result)
.addElement(
new DepLink(
dep.getTargetModule(),
DependencyUtil.Role.RegularDependency,
(dep.isReexport()
? DependencyUtil.LinkType.ReexportsDep
: DependencyUtil.LinkType.Depends)));
}
}
if (module instanceof Language) {
// generators and generators dependencies are now also added to language dependencies
// (MPS-15883)
for (Generator g : ((Language) module).getGenerators()) {
ListSequence.fromList(result)
.addElement(
new DepLink(
g.getModuleReference(),
DependencyUtil.Role.OwnedGenerator,
DependencyUtil.LinkType.Generator));
}
}
if (module instanceof Generator) {
Language srcLang = ((Generator) module).getSourceLanguage();
ListSequence.fromList(result)
.addElement(
new DepLink(
srcLang.getModuleReference(),
DependencyUtil.Role.SourceLanguage,
DependencyUtil.LinkType.GeneratorLanguage));
}
break;
case UsedDevkit:
// explicit use of devkit
case DependencyDevkit:
DevkitDescriptor devkit = as_he47wm_a0a0a3e0g(descr, DevkitDescriptor.class);
if (devkit == null) {
break;
}
boolean direct = role == DependencyUtil.Role.UsedDevkit;
addDeps(
result,
devkit.getExtendedDevkits(),
(direct ? DependencyUtil.Role.UsedDevkit : DependencyUtil.Role.DependencyDevkit),
DependencyUtil.LinkType.ExtendsDevkit);
addDeps(
result,
devkit.getExportedLanguages(),
(direct ? DependencyUtil.Role.UsedLanguage : DependencyUtil.Role.DependencyLanguage),
DependencyUtil.LinkType.ExportsLanguage);
addDeps(
result,
devkit.getExportedSolutions(),
(direct
? DependencyUtil.Role.RegularDependency
: DependencyUtil.Role.RuntimeDependency),
DependencyUtil.LinkType.ExportsSolution);
break;
case UsedLanguage:
LanguageDescriptor lang = as_he47wm_a0a0a4e0g(descr, LanguageDescriptor.class);
if (lang == null) {
break;
}
addDeps(
result,
lang.getExtendedLanguages(),
DependencyUtil.Role.UsedLanguage,
DependencyUtil.LinkType.ExtendsLanguage);
if (myNeedRuntime) {
addDeps(
result,
lang.getRuntimeModules(),
DependencyUtil.Role.RuntimeDependency,
DependencyUtil.LinkType.ExportsRuntime);
}
break;
case RegularDependency:
addDeps(
result,
getReexportDeps(descr),
DependencyUtil.Role.RegularDependency,
DependencyUtil.LinkType.ReexportsDep);
if (descr instanceof LanguageDescriptor) {
addDeps(
result,
(as_he47wm_a0a1a0a1a5e0g(descr, LanguageDescriptor.class)).getExtendedLanguages(),
DependencyUtil.Role.RegularDependency,
DependencyUtil.LinkType.ExtendsLanguage);
}
if (myNeedRuntime) {
addDeps(
result,
getNonreexportDeps(descr),
DependencyUtil.Role.RuntimeDependency,
DependencyUtil.LinkType.Depends);
addDeps(
result,
descr.getUsedLanguages(),
DependencyUtil.Role.DependencyLanguage,
DependencyUtil.LinkType.UsesLanguage);
addDeps(
result,
descr.getUsedDevkits(),
DependencyUtil.Role.DependencyDevkit,
DependencyUtil.LinkType.UsesDevkit);
}
break;
case RuntimeDependency:
if (myNeedRuntime) {
addDeps(
result,
getReexportDeps(descr),
DependencyUtil.Role.RuntimeDependency,
DependencyUtil.LinkType.ReexportsDep);
addDeps(
result,
getNonreexportDeps(descr),
DependencyUtil.Role.RuntimeDependency,
DependencyUtil.LinkType.Depends);
addDeps(
result,
descr.getUsedLanguages(),
DependencyUtil.Role.DependencyLanguage,
DependencyUtil.LinkType.UsesLanguage);
addDeps(
result,
descr.getUsedDevkits(),
DependencyUtil.Role.DependencyDevkit,
DependencyUtil.LinkType.UsesDevkit);
if (descr instanceof LanguageDescriptor) {
addDeps(
result,
(as_he47wm_a0a1a0a4a0a6e0g(descr, LanguageDescriptor.class)).getExtendedLanguages(),
DependencyUtil.Role.RuntimeDependency,
DependencyUtil.LinkType.ExtendsLanguage);
}
if (descr instanceof GeneratorDescriptor) {
GeneratorDescriptor gen = (GeneratorDescriptor) descr;
// generator languages are now also dependencies
addDeps(
result,
gen.getDepGenerators(),
DependencyUtil.Role.RuntimeDependency,
DependencyUtil.LinkType.DependsOnGenerator);
ListSequence.fromList(result)
.addElement(
new DepLink(
(as_he47wm_a0a0a0a0a3a5a0a6e0g(module, Generator.class))
.getSourceLanguage()
.getModuleReference(),
DependencyUtil.Role.RuntimeDependency,
DependencyUtil.LinkType.GeneratorLanguage));
}
}
break;
case SourceLanguage:
// dependency from generator to its source language
addDeps(
result,
check_he47wm_b0b0h4a6(as_he47wm_a0b0b0h4a6(descr, LanguageDescriptor.class)),
DependencyUtil.Role.SourceLanguage,
DependencyUtil.LinkType.ExtendsLanguage);
addDeps(
result,
check_he47wm_b0c0h4a6(as_he47wm_a0b0c0h4a6(descr, LanguageDescriptor.class)),
DependencyUtil.Role.RuntimeDependency,
DependencyUtil.LinkType.ExportsRuntime);
break;
case DependencyLanguage:
addDeps(
result,
check_he47wm_b0a0i4a6(as_he47wm_a0b0a0i4a6(descr, LanguageDescriptor.class)),
DependencyUtil.Role.DependencyLanguage,
DependencyUtil.LinkType.ExtendsLanguage);
addDeps(
result,
check_he47wm_b0b0i4a6(as_he47wm_a0b0b0i4a6(descr, LanguageDescriptor.class)),
DependencyUtil.Role.RuntimeDependency,
DependencyUtil.LinkType.ExportsRuntime);
break;
default:
}
return result;
}
