values() public method

public values ( ) : global::java.util.Collection
return global::java.util.Collection
		public Iterable<MemberInfo> getMembers(TypeInfo declaringType, bool staticOnly) {
			var members = new HashMap<String, MemberInfo>();
			foreach (var t in declaringType.getBaseTypes().reverse()) {
				putFields(t, members);
				putProperties(t, members);
				putMethods(t, members);
				putNestedTypes(t, members);
			}
			putFields(declaringType, members);
			putProperties(declaringType, members);
			putMethods(declaringType, members);
			putNestedTypes(declaringType, members);
			return filterMembers(typeInfos[typeInfos.size() - 1], staticOnly, members.values());
		}
		private SourceCompilerResults compileCore(IProgressMonitor monitor) {
			var t0 = System.nanoTime();
			
			var results = new SourceCompilerResults();
			var hasErrors = false;
			var errorManager = new CodeErrorManager();
			var allFiles = parameters.AllFiles;
			Iterable<IFile> filesToCompile = null;
			
			try {
				monitor.beginTask("", 11);

				var deletedFiles = parameters.FilesToCompile
						.select(p => allFiles.getResource(p))
						.where(p => p == null || !p.exists())
						.select(p => allFiles.getProjectRelativeName(p)).toSet();
				var typesToCopy = Query.empty<TypeInfo>();

				// Get the files to compile
				if (parameters.FullBuild) {
					filesToCompile = allFiles.getAllResources().where(p => p.exists()).toList();
				} else {
					bool filteringDone = false;
					var referencingFiles = parameters.getDependencyInfo().getAllReferencingFiles(parameters.getFilesToCompile());
					if (parameters.ProgressiveBuild && deletedFiles.isEmpty()) {
						var referencedFiles = parameters.getDependencyInfo().getAllReferencedFiles(parameters.getFilesToCompile());
						referencedFiles = referencedFiles.except(parameters.getFilesToCompile());
						referencedFiles = referencedFiles.intersect(referencingFiles);
						
						// Progressive build only if referenced and referencing files do not intersect
						if (!referencedFiles.any()) {
							filesToCompile = parameters.FilesToCompile.select(p => allFiles.getResource(p)).where(p => p.exists()).toList();
							filteringDone = true;
						}
					}
					if (!filteringDone) {
						// Incremental build with dependencies
						filesToCompile = referencingFiles.select(p => allFiles.getResource(p)).where(p => p.exists()).toList();
					}
					
					var filesToKeep = allFiles.getAllProjectRelativeNames().except(referencingFiles);
					typesToCopy = filesToKeep.selectMany(p => parameters.DependencyInfo.getFileContents(p))
							.where(p => p.indexOf('$') == -1).select(p => parameters.TypeSystem.getType(p));
							
					Environment.trace(this, "keeping " + filesToKeep.count() + " files");
					Environment.trace(this, "ignoring " +
							(allFiles.getAllResources().count() - filesToCompile.count() - filesToKeep.count()) + " files");
				}
				Environment.trace(this, "compiling " + filesToCompile.count() + " files");
				monitor.worked(1);
				if (monitor.isCanceled()) {
					throw new InterruptedException();
				}

				var compilationUnits = new HashMap<String, CompilationUnitNode>();
				
				// Parsing
				foreach (var file in filesToCompile) {
					var text = getText(file);
					if (text != null) {
						parse(file, text, errorManager, compilationUnits);
					}
				}
				monitor.worked(1);
				if (monitor.isCanceled()) {
					throw new InterruptedException();
				}
				
				// Compiling
				var t1 = System.nanoTime();
				
				var typeSystem = new Library(parameters.ClassPath);
				JvmTypeSystemHelper.cloneTypes(typesToCopy, typeSystem);
				
				var annotatedTypeSystem = new Library(new[] { Environment.getLibraryPath("stabal.jar") }, typeSystem);
				
				var cparams = new CompilerParameters();
				cparams.TypeSystem = typeSystem;
				cparams.AnnotatedTypeSystem = annotatedTypeSystem;
				cparams.GenerateClassFiles = parameters.GenerateClassFiles;
				cparams.ProgressTracker = new CompilationProgressTracker(monitor);
				
				var cunits = compilationUnits.values().toArray(new CompilationUnitNode[compilationUnits.size()]);
				var cresults = new StabCompiler().compileFromCompilationUnits(cparams, cunits);
				
				Environment.trace(this, "compilation of " + sizeof(cunits) + " files done in " + ((System.nanoTime() - t1) / 1e6) + "ms");

				foreach (var error in cresults.Errors) {
					if (error.Level == 0) {
						hasErrors = true;
					}
					results.CodeErrors.add(error);
					Environment.trace(this, "error (" + error.Line + ", " + error.Column + ") " + error.Filename + ": " + error.Message);
				}

				if (!hasErrors) {
					var dependencyInfo = new DependencyInfo();
					results.DependencyInfo = dependencyInfo;
					var allTypes = new HashSet<String>();
	
					// Copy informations from unbuilt files
					if (parameters.DependencyInfo != null) {
						var unbuiltFiles = allFiles.getAllProjectRelativeNames();
						unbuiltFiles = unbuiltFiles.except(filesToCompile.select(p => allFiles.getProjectRelativeName(p)));
						unbuiltFiles = unbuiltFiles.except(deletedFiles);
						foreach (var file in unbuiltFiles) {
							foreach (var type in parameters.DependencyInfo.getFileContents(file)) {
								allTypes.add(type);
								dependencyInfo.addFileToTypeRelation(file, type);
								foreach (var refType in parameters.DependencyInfo.getReferencedTypes(type)) {
									dependencyInfo.addTypeToTypeRelation(type, refType);
								}
							}
						}
					}
					
					// Collect the types and update the dependencies.
					var typeMembers = new HashMap<IFile, Iterable<TypeMemberNode>>();
					foreach (var file in filesToCompile) {
						var fileName = allFiles.getProjectRelativeName(file);
						var compilationUnit = compilationUnits[fileName];
						if (compilationUnit == null) {
							continue;
						}
						var members = SyntaxTreeHelper.getTypeMembers(compilationUnit);
						typeMembers.put(file, members);
						foreach (var member in members) {
							var typeName = member.getUserData(typeof(TypeInfo)).FullName;
							dependencyInfo.addFileToTypeRelation(fileName, typeName);
							allTypes.add(typeName);
						}
					}

					if (parameters.DependencyInfo != null) {
						// Copy the types ignored by this compilation
						var missingTypes = new HashSet<TypeInfo>();
						foreach (var t in allTypes.where(p => p.indexOf('$') == -1 && !typeSystem.typeExists(p))) {
							if (hasErrors = !parameters.DependencyInfo.getReferencedTypes(t).all(p => allTypes.contains(p))) {
								Environment.trace(this, "Incremental build failed: a type was deleted");
								break;
							}
							missingTypes.add(parameters.TypeSystem.getType(t));
						}
						if (!hasErrors) {
							JvmTypeSystemHelper.cloneTypes(missingTypes, typeSystem);
						}
					}
					
					if (!hasErrors) {
						// Compute the dependencies in the compiled files
						foreach (var member in filesToCompile.select(p => typeMembers[p]).where(p => p != null).selectMany(p => p)) {
							foreach (var t in SyntaxTreeHelper.getTypeMemberDependencies(member)
									.intersect(allTypes.select(p => JvmTypeSystemHelper.getType(typeSystem, p)))) {
								dependencyInfo.addTypeToTypeRelation(member.getUserData(typeof(TypeInfo)).FullName, t.FullName);
							}
						}
	
						results.TypeSystem = typeSystem;
						results.AnnotatedTypeSystem = annotatedTypeSystem;
						foreach (var e in compilationUnits.entrySet()) {
							results.CompilationUnits[e.Key] = e.Value;
						}
						foreach (var e in cresults.ClassFiles.entrySet()) {
							results.ClassFiles[e.Key] = e.Value;
						}
					}
				}
				monitor.worked(1);
			} catch (CodeErrorException e) {
				monitor.worked(10);
			} catch (TypeLoadException e) {
				results.MissingType = e.TypeName;
				hasErrors = true;
				monitor.worked(6);
			} finally {
				monitor.done();
			}

			foreach (var file in filesToCompile) {
				results.CompiledFiles.add(allFiles.getProjectRelativeName(file));
			}
			foreach (var error in errorManager.Errors) {
				if (error.Level == 0) {
					hasErrors = true;
				}
				results.CodeErrors.add(error);
				Environment.trace(this, "error (" + error.Line + ", " + error.Column + ") " + error.Filename + ": " + error.Message);
			}
			results.Failed = hasErrors;
			
			Environment.trace(this, "compilation done in " + ((System.nanoTime() - t0) / 1e6) + "ms");
			return results;
		}
		public Iterable<MemberInfo> getTypeMembers() {
			var members = new HashMap<String, MemberInfo>();
			putTypeMembers(members);
			return members.values();
		}
 private bool hasUnfixedTypeVariablesDependingOn(TypeInfo type, HashMap<TypeInfo, TypeVariableInfo> typeVariableInfos,
         HashSet<TypeInfo> visited) {
     if (visited.contains(type)) {
         return false;
     }
     visited.add(type);
     foreach (var tv in typeVariableInfos.values()) {
         if (tv.fixedType == null) {
             if (tv.dependencies.contains(type)) {
                 return true;
             }
         } else if (tv.dependencies.contains(type)) {
             foreach (var t in tv.dependencies) {
                 if (hasUnfixedTypeVariablesDependingOn(t, typeVariableInfos, visited)) {
                     return true;
                 }
             }
         }
     }
     return false;
 }