import org.simantics.scl.compiler.top.SCLCompilerConfiguration;
import org.simantics.scl.compiler.top.ValueNotFound;
import org.simantics.scl.compiler.types.Types;
+import org.slf4j.Logger;
+import org.slf4j.LoggerFactory;
import gnu.trove.map.hash.THashMap;
import gnu.trove.map.hash.TObjectLongHashMap;
* @author Hannu Niemistö
*/
public class ModuleRepository {
+
+ private static final Logger LOGGER = LoggerFactory.getLogger(ModuleRepository.class);
+
private final ModuleRepository parentRepository;
private final ModuleSourceRepository sourceRepository;
private ConcurrentHashMap<String, ModuleEntry> moduleCache = new ConcurrentHashMap<String, ModuleEntry>();
private static void finishModuleCompilation(String moduleName) {
PENDING_MODULES.get().remove(moduleName);
}
-
+
private class ModuleEntry extends UpdateListener implements Observable {
final String moduleName;
- THashSet<UpdateListener> listeners = new THashSet<UpdateListener>();
+ THashSet<UpdateListener> listeners = new THashSet<UpdateListener>(); // listeners == null is used as a marker that this entry is disposed
+ // should be handled only inside synchronized code
ModuleSource source;
Failable<Module> compilationResult;
@Override
public void notifyAboutUpdate() {
+ // There is a chance that another observable calls notifyAboutUpdate() before stopListening has been completed,
+ // but notifyAboutUpdate(ArrayList<UpdateListener>) lets only one thread to do the notification of dependencies
+ // by clearing listeners field.
+ stopListening();
ArrayList<UpdateListener> externalListeners = new ArrayList<UpdateListener>();
notifyAboutUpdate(externalListeners);
for(UpdateListener listener : externalListeners)
listener.notifyAboutUpdate();
}
- synchronized void notifyAboutUpdate(ArrayList<UpdateListener> externalListeners) {
- stopListening();
- if (listeners == null)
- return;
+ void notifyAboutUpdate(ArrayList<UpdateListener> externalListeners) {
+ THashSet<UpdateListener> listenersCopy;
+ synchronized(this) {
+ listenersCopy = listeners;
+ if (listenersCopy == null)
+ return;
+ listeners = null;
+ }
if(moduleCache.get(moduleName) == this) {
moduleCache.remove(moduleName);
if(SCLCompilerConfiguration.TRACE_MODULE_UPDATE) {
- System.out.println("Invalidate " + moduleName);
- for(UpdateListener l : listeners)
- System.out.println(" " + l);
+ LOGGER.info("Invalidate " + moduleName);
+ for(UpdateListener l : listenersCopy)
+ LOGGER.info(" " + l);
}
- THashSet<UpdateListener> listenersCopy = listeners;
- listeners = null;
- for(UpdateListener l : listenersCopy)
- l.stopListening();
for(UpdateListener l : listenersCopy)
- if(l instanceof ModuleEntry)
+ if(!l.stopListening())
+ ;
+ else if(l instanceof ModuleEntry)
((ModuleEntry)l).notifyAboutUpdate(externalListeners);
- else {
+ else
externalListeners.add(l);
- }
}
}
compilationResult = DoesNotExist.getInstance();
else {
if(SCLCompilerConfiguration.TRACE_MODULE_UPDATE)
- System.out.println("Compile " + source);
+ LOGGER.info("Compile " + source);
beginModuleCompilation(moduleName);
compilationResult = source.compileModule(ModuleRepository.this, this, advisor == null ? null : advisor.getOptions(moduleName));
finishModuleCompilation(moduleName);
}
public synchronized void dispose() {
- if (listeners != null)
- listeners.clear();
listeners = null;
stopListening();
source = null;
return getModule(moduleName, null);
}
+ public void update(String moduleName) {
+ getModuleEntry(moduleName, null).notifyAboutUpdate();
+ }
+
public Failable<RuntimeModule> getRuntimeModule(String moduleName, UpdateListener listener) {
return getModuleEntry(moduleName, listener).getRuntimeModule();
}
return createRuntimeEnvironment(environmentSpecification, parentClassLoader, null);
}
+ public RuntimeEnvironment createRuntimeEnvironment(EnvironmentSpecification environmentSpecification) throws ImportFailureException {
+ return createRuntimeEnvironment(environmentSpecification, getClass().getClassLoader());
+ }
+
public RuntimeEnvironment createRuntimeEnvironment(
EnvironmentSpecification environmentSpecification,
ClassLoader parentClassLoader,
return documentation;
}
+ /**
+ * Flush clears module repository cache completely. It should not be called in
+ * normal operation, but may be useful during testing for clearing repositories
+ * that are statically defined.
+ */
public void flush() {
if (parentRepository != null)
parentRepository.flush();
- if (moduleCache != null) {
- for (ModuleEntry entry : moduleCache.values()) {
+ if (moduleCache != null)
+ for (ModuleEntry entry : moduleCache.values())
entry.dispose();
- }
- moduleCache.clear();
- }
- moduleCache = null;
+ moduleCache = new ConcurrentHashMap<String, ModuleEntry>();
}
+ /**
+ * Gets the map of all modules that have been currently compiled successfully.
+ * Not that the method does not return all possible modules in the source repository.
+ */
public Map<String, Module> getModules() {
Map<String, Module> result = new HashMap<>(moduleCache.size());
for (Map.Entry<String, ModuleEntry> entry : moduleCache.entrySet()) {