Examples with ImportDeclaration org.eclipse.jdt.core.dom.ImportDeclaration used on opensource projects

Example 1 with ImportDeclaration

use of org.eclipse.jdt.core.dom.ImportDeclaration in project che by eclipse.

the class OrganizeImportsOperation method collectReferences.

// find type references in a compilation unit
private boolean collectReferences(CompilationUnit astRoot, List<SimpleName> typeReferences, List<SimpleName> staticReferences, Set<String> oldSingleImports, Set<String> oldDemandImports) {
    if (!fAllowSyntaxErrors) {
        IProblem[] problems = astRoot.getProblems();
        for (int i = 0; i < problems.length; i++) {
            IProblem curr = problems[i];
            if (curr.isError() && (curr.getID() & IProblem.Syntax) != 0) {
                fParsingError = problems[i];
                return false;
            }
        }
    }
    List<ImportDeclaration> imports = astRoot.imports();
    for (int i = 0; i < imports.size(); i++) {
        ImportDeclaration curr = imports.get(i);
        String id = ASTResolving.getFullName(curr.getName());
        if (curr.isOnDemand()) {
            oldDemandImports.add(id);
        } else {
            oldSingleImports.add(id);
        }
    }
    IJavaProject project = fCompilationUnit.getJavaProject();
    ImportReferencesCollector.collect(astRoot, project, null, typeReferences, staticReferences);
    return true;
}

Example 2 with ImportDeclaration

use of org.eclipse.jdt.core.dom.ImportDeclaration in project che by eclipse.

the class UnusedCodeFix method createCleanUp.

public static ICleanUpFix createCleanUp(CompilationUnit compilationUnit, IProblemLocation[] problems, boolean removeUnusedPrivateMethods, boolean removeUnusedPrivateConstructors, boolean removeUnusedPrivateFields, boolean removeUnusedPrivateTypes, boolean removeUnusedLocalVariables, boolean removeUnusedImports, boolean removeUnusedCast) {
    List<CompilationUnitRewriteOperation> result = new ArrayList<CompilationUnitRewriteOperation>();
    Hashtable<ASTNode, List<SimpleName>> variableDeclarations = new Hashtable<ASTNode, List<SimpleName>>();
    LinkedHashSet<CastExpression> unnecessaryCasts = new LinkedHashSet<CastExpression>();
    for (int i = 0; i < problems.length; i++) {
        IProblemLocation problem = problems[i];
        int id = problem.getProblemId();
        if (removeUnusedImports && (id == IProblem.UnusedImport || id == IProblem.DuplicateImport || id == IProblem.ConflictingImport || id == IProblem.CannotImportPackage || id == IProblem.ImportNotFound)) {
            ImportDeclaration node = UnusedCodeFix.getImportDeclaration(problem, compilationUnit);
            if (node != null) {
                result.add(new RemoveImportOperation(node));
            }
        }
        if ((removeUnusedPrivateMethods && id == IProblem.UnusedPrivateMethod) || (removeUnusedPrivateConstructors && id == IProblem.UnusedPrivateConstructor) || (removeUnusedPrivateTypes && id == IProblem.UnusedPrivateType)) {
            SimpleName name = getUnusedName(compilationUnit, problem);
            if (name != null) {
                IBinding binding = name.resolveBinding();
                if (binding != null) {
                    result.add(new RemoveUnusedMemberOperation(new SimpleName[] { name }, false));
                }
            }
        }
        if ((removeUnusedLocalVariables && id == IProblem.LocalVariableIsNeverUsed) || (removeUnusedPrivateFields && id == IProblem.UnusedPrivateField)) {
            SimpleName name = getUnusedName(compilationUnit, problem);
            if (name != null) {
                IBinding binding = name.resolveBinding();
                if (binding instanceof IVariableBinding && !isFormalParameterInEnhancedForStatement(name) && (!((IVariableBinding) binding).isField() || isSideEffectFree(name, compilationUnit))) {
                    VariableDeclarationFragment parent = (VariableDeclarationFragment) ASTNodes.getParent(name, VariableDeclarationFragment.class);
                    if (parent != null) {
                        ASTNode varDecl = parent.getParent();
                        if (!variableDeclarations.containsKey(varDecl)) {
                            variableDeclarations.put(varDecl, new ArrayList<SimpleName>());
                        }
                        variableDeclarations.get(varDecl).add(name);
                    } else {
                        result.add(new RemoveUnusedMemberOperation(new SimpleName[] { name }, false));
                    }
                }
            }
        }
        if (removeUnusedCast && id == IProblem.UnnecessaryCast) {
            ASTNode selectedNode = problem.getCoveringNode(compilationUnit);
            ASTNode curr = selectedNode;
            while (curr instanceof ParenthesizedExpression) {
                curr = ((ParenthesizedExpression) curr).getExpression();
            }
            if (curr instanceof CastExpression) {
                unnecessaryCasts.add((CastExpression) curr);
            }
        }
    }
    for (Iterator<ASTNode> iter = variableDeclarations.keySet().iterator(); iter.hasNext(); ) {
        ASTNode node = iter.next();
        List<SimpleName> names = variableDeclarations.get(node);
        result.add(new RemoveUnusedMemberOperation(names.toArray(new SimpleName[names.size()]), false));
    }
    if (unnecessaryCasts.size() > 0)
        result.add(new RemoveAllCastOperation(unnecessaryCasts));
    if (result.size() == 0)
        return null;
    return new UnusedCodeFix(FixMessages.UnusedCodeFix_change_name, compilationUnit, result.toArray(new CompilationUnitRewriteOperation[result.size()]));
}

Example 3 with ImportDeclaration

use of org.eclipse.jdt.core.dom.ImportDeclaration in project buck by facebook.

the class JavaFileParser method extractFeaturesFromJavaCode.

public JavaFileFeatures extractFeaturesFromJavaCode(String code) {
    // For now, we will harcode this. Ultimately, we probably want to make this configurable via
    // .buckconfig. For example, the Buck project itself is diligent about disallowing wildcard
    // imports, but the one exception is the Java code generated via Thrift in src-gen.
    final boolean shouldThrowForUnsupportedWildcardImport = false;
    final AtomicBoolean isPoisonedByUnsupportedWildcardImport = new AtomicBoolean(false);
    final CompilationUnit compilationUnit = makeCompilationUnitFromSource(code);
    final ImmutableSortedSet.Builder<String> providedSymbols = ImmutableSortedSet.naturalOrder();
    final ImmutableSortedSet.Builder<String> requiredSymbols = ImmutableSortedSet.naturalOrder();
    final ImmutableSortedSet.Builder<String> exportedSymbols = ImmutableSortedSet.naturalOrder();
    final ImmutableSortedSet.Builder<String> requiredSymbolsFromExplicitImports = ImmutableSortedSet.naturalOrder();
    compilationUnit.accept(new ASTVisitor() {

        @Nullable
        private String packageName;

        /** Maps simple name to fully-qualified name. */
        private Map<String, String> simpleImportedTypes = new HashMap<>();

        /**
       * Maps wildcard import prefixes, such as {@code "java.util"} to the types in the respective
       * package if a wildcard import such as {@code import java.util.*} is used.
       */
        private Map<String, ImmutableSet<String>> wildcardImports = new HashMap<>();

        @Override
        public boolean visit(PackageDeclaration node) {
            Preconditions.checkState(packageName == null, "There should be at most one package declaration");
            packageName = node.getName().getFullyQualifiedName();
            return false;
        }

        // providedSymbols
        @Override
        public boolean visit(TypeDeclaration node) {
            // Local classes can be declared inside of methods. Skip over these.
            if (node.getParent() instanceof TypeDeclarationStatement) {
                return true;
            }
            String fullyQualifiedName = getFullyQualifiedTypeName(node);
            if (fullyQualifiedName != null) {
                providedSymbols.add(fullyQualifiedName);
            }
            @SuppressWarnings("unchecked") List<Type> interfaceTypes = node.superInterfaceTypes();
            for (Type interfaceType : interfaceTypes) {
                tryAddType(interfaceType, DependencyType.EXPORTED);
            }
            Type superclassType = node.getSuperclassType();
            if (superclassType != null) {
                tryAddType(superclassType, DependencyType.EXPORTED);
            }
            return true;
        }

        @Override
        public boolean visit(EnumDeclaration node) {
            String fullyQualifiedName = getFullyQualifiedTypeName(node);
            if (fullyQualifiedName != null) {
                providedSymbols.add(fullyQualifiedName);
            }
            return true;
        }

        @Override
        public boolean visit(AnnotationTypeDeclaration node) {
            String fullyQualifiedName = getFullyQualifiedTypeName(node);
            if (fullyQualifiedName != null) {
                providedSymbols.add(fullyQualifiedName);
            }
            return true;
        }

        // requiredSymbols
        /**
       * Uses heuristics to try to figure out what type of QualifiedName this is. Returns a non-null
       * value if this is believed to be a reference that qualifies as a "required symbol"
       * relationship.
       */
        @Override
        public boolean visit(QualifiedName node) {
            QualifiedName ancestor = findMostQualifiedAncestor(node);
            ASTNode parent = ancestor.getParent();
            if (!(parent instanceof PackageDeclaration) && !(parent instanceof ImportDeclaration)) {
                String symbol = ancestor.getFullyQualifiedName();
                // lookup.
                if (CharMatcher.javaUpperCase().matches(symbol.charAt(0))) {
                    addTypeFromDotDelimitedSequence(symbol, DependencyType.REQUIRED);
                }
            }
            return false;
        }

        /**
       * @param expr could be "Example", "Example.field", "com.example.Example". Note it could also
       *     be a built-in type, such as "java.lang.Integer", in which case it will not be added to
       *     the set of required symbols.
       */
        private void addTypeFromDotDelimitedSequence(String expr, DependencyType dependencyType) {
            // check it against JAVA_LANG_TYPES.
            if (startsWithUppercaseChar(expr)) {
                int index = expr.indexOf('.');
                if (index >= 0) {
                    String leftmostComponent = expr.substring(0, index);
                    if (JAVA_LANG_TYPES.contains(leftmostComponent)) {
                        return;
                    }
                }
            }
            expr = qualifyWithPackageNameIfNecessary(expr);
            addSymbol(expr, dependencyType);
        }

        @Override
        public boolean visit(ImportDeclaration node) {
            String fullyQualifiedName = node.getName().getFullyQualifiedName();
            // third-party code. As such, we will tolerate these for some of the common cases.
            if (node.isOnDemand()) {
                ImmutableSet<String> value = SUPPORTED_WILDCARD_IMPORTS.get(fullyQualifiedName);
                if (value != null) {
                    wildcardImports.put(fullyQualifiedName, value);
                    return false;
                } else if (shouldThrowForUnsupportedWildcardImport) {
                    throw new RuntimeException(String.format("Use of wildcard 'import %s.*' makes it impossible to statically determine " + "required symbols in this file. Please enumerate explicit imports.", fullyQualifiedName));
                } else {
                    isPoisonedByUnsupportedWildcardImport.set(true);
                    return false;
                }
            }
            // Only worry about the dependency on the enclosing type.
            Optional<String> simpleName = getSimpleNameFromFullyQualifiedName(fullyQualifiedName);
            if (simpleName.isPresent()) {
                String name = simpleName.get();
                int index = fullyQualifiedName.indexOf("." + name);
                String enclosingType = fullyQualifiedName.substring(0, index + name.length() + 1);
                requiredSymbolsFromExplicitImports.add(enclosingType);
                simpleImportedTypes.put(name, enclosingType);
            } else {
                LOG.warn("Suspicious import lacks obvious enclosing type: %s", fullyQualifiedName);
                // The one example we have seen of this in the wild is
                // "org.whispersystems.curve25519.java.curve_sigs". In practice, we still need to add it
                // as a required symbol in this case.
                requiredSymbols.add(fullyQualifiedName);
            }
            return false;
        }

        @Override
        public boolean visit(MethodInvocation node) {
            if (node.getExpression() == null) {
                return true;
            }
            String receiver = node.getExpression().toString();
            if (looksLikeAType(receiver)) {
                addTypeFromDotDelimitedSequence(receiver, DependencyType.REQUIRED);
            }
            return true;
        }

        /** An annotation on a member with zero arguments. */
        @Override
        public boolean visit(MarkerAnnotation node) {
            DependencyType dependencyType = findDependencyTypeForAnnotation(node);
            addSimpleTypeName(node.getTypeName(), dependencyType);
            return true;
        }

        /** An annotation on a member with named arguments. */
        @Override
        public boolean visit(NormalAnnotation node) {
            DependencyType dependencyType = findDependencyTypeForAnnotation(node);
            addSimpleTypeName(node.getTypeName(), dependencyType);
            return true;
        }

        /** An annotation on a member with a single, unnamed argument. */
        @Override
        public boolean visit(SingleMemberAnnotation node) {
            DependencyType dependencyType = findDependencyTypeForAnnotation(node);
            addSimpleTypeName(node.getTypeName(), dependencyType);
            return true;
        }

        private DependencyType findDependencyTypeForAnnotation(Annotation annotation) {
            ASTNode parentNode = annotation.getParent();
            if (parentNode == null) {
                return DependencyType.REQUIRED;
            }
            if (parentNode instanceof BodyDeclaration) {
                // Note that BodyDeclaration is an abstract class. Its subclasses are things like
                // FieldDeclaration and MethodDeclaration. We want to be sure that an annotation on any
                // non-private declaration is considered an exported symbol.
                BodyDeclaration declaration = (BodyDeclaration) parentNode;
                int modifiers = declaration.getModifiers();
                if ((modifiers & Modifier.PRIVATE) == 0) {
                    return DependencyType.EXPORTED;
                }
            }
            return DependencyType.REQUIRED;
        }

        @Override
        public boolean visit(SimpleType node) {
            // This method is responsible for finding the overwhelming majority of the required symbols
            // in the AST.
            tryAddType(node, DependencyType.REQUIRED);
            return true;
        }

        // exportedSymbols
        @Override
        public boolean visit(MethodDeclaration node) {
            // Types from private method signatures need not be exported.
            if ((node.getModifiers() & Modifier.PRIVATE) != 0) {
                return true;
            }
            Type returnType = node.getReturnType2();
            if (returnType != null) {
                tryAddType(returnType, DependencyType.EXPORTED);
            }
            @SuppressWarnings("unchecked") List<SingleVariableDeclaration> params = node.parameters();
            for (SingleVariableDeclaration decl : params) {
                tryAddType(decl.getType(), DependencyType.EXPORTED);
            }
            @SuppressWarnings("unchecked") List<Type> exceptions = node.thrownExceptionTypes();
            for (Type exception : exceptions) {
                tryAddType(exception, DependencyType.EXPORTED);
            }
            return true;
        }

        @Override
        public boolean visit(FieldDeclaration node) {
            // Types from private fields need not be exported.
            if ((node.getModifiers() & Modifier.PRIVATE) == 0) {
                tryAddType(node.getType(), DependencyType.EXPORTED);
            }
            return true;
        }

        private void tryAddType(Type type, DependencyType dependencyType) {
            if (type.isSimpleType()) {
                SimpleType simpleType = (SimpleType) type;
                Name simpleTypeName = simpleType.getName();
                String simpleName = simpleTypeName.toString();
                // rather than simply required.
                if (!CharMatcher.javaUpperCase().matchesAllOf(simpleName) || (dependencyType == DependencyType.EXPORTED && simpleImportedTypes.containsKey(simpleName))) {
                    addSimpleTypeName(simpleTypeName, dependencyType);
                }
            } else if (type.isArrayType()) {
                ArrayType arrayType = (ArrayType) type;
                tryAddType(arrayType.getElementType(), dependencyType);
            } else if (type.isParameterizedType()) {
                ParameterizedType parameterizedType = (ParameterizedType) type;
                tryAddType(parameterizedType.getType(), dependencyType);
                @SuppressWarnings("unchecked") List<Type> argTypes = parameterizedType.typeArguments();
                for (Type argType : argTypes) {
                    tryAddType(argType, dependencyType);
                }
            }
        }

        private void addSimpleTypeName(Name simpleTypeName, DependencyType dependencyType) {
            String simpleName = simpleTypeName.toString();
            if (JAVA_LANG_TYPES.contains(simpleName)) {
                return;
            }
            String fullyQualifiedNameForSimpleName = simpleImportedTypes.get(simpleName);
            if (fullyQualifiedNameForSimpleName != null) {
                // May need to promote from required to exported in this case.
                if (dependencyType == DependencyType.EXPORTED) {
                    addSymbol(fullyQualifiedNameForSimpleName, DependencyType.EXPORTED);
                }
                return;
            }
            // the iterator most of the time.
            if (!wildcardImports.isEmpty()) {
                for (Map.Entry<String, ImmutableSet<String>> entry : wildcardImports.entrySet()) {
                    Set<String> types = entry.getValue();
                    if (types.contains(simpleName)) {
                        String packageName = entry.getKey();
                        addSymbol(packageName + "." + simpleName, dependencyType);
                        return;
                    }
                }
            }
            String symbol = simpleTypeName.getFullyQualifiedName();
            symbol = qualifyWithPackageNameIfNecessary(symbol);
            addSymbol(symbol, dependencyType);
        }

        private void addSymbol(String symbol, DependencyType dependencyType) {
            ((dependencyType == DependencyType.REQUIRED) ? requiredSymbols : exportedSymbols).add(symbol);
        }

        private String qualifyWithPackageNameIfNecessary(String symbol) {
            if (!startsWithUppercaseChar(symbol)) {
                return symbol;
            }
            // If the symbol starts with a capital letter, then we assume that it is a reference to
            // a type in the same package.
            int index = symbol.indexOf('.');
            if (index >= 0) {
                symbol = symbol.substring(0, index);
            }
            if (packageName != null) {
                symbol = packageName + "." + symbol;
            }
            return symbol;
        }
    });
    // TODO(bolinfest): Special treatment for exportedSymbols when poisoned by wildcard import.
    ImmutableSortedSet<String> totalExportedSymbols = exportedSymbols.build();
    // If we were poisoned by an unsupported wildcard import, then we should rely exclusively on
    // the explicit imports to determine the required symbols.
    Set<String> totalRequiredSymbols = new HashSet<>();
    if (isPoisonedByUnsupportedWildcardImport.get()) {
        totalRequiredSymbols.addAll(requiredSymbolsFromExplicitImports.build());
    } else {
        totalRequiredSymbols.addAll(requiredSymbolsFromExplicitImports.build());
        totalRequiredSymbols.addAll(requiredSymbols.build());
    }
    // Make sure that required and exported symbols are disjoint sets.
    totalRequiredSymbols.removeAll(totalExportedSymbols);
    return new JavaFileFeatures(providedSymbols.build(), ImmutableSortedSet.copyOf(totalRequiredSymbols), totalExportedSymbols);
}

Example 4 with ImportDeclaration

use of org.eclipse.jdt.core.dom.ImportDeclaration in project che by eclipse.

the class TypeContextChecker method createStubTypeContext.

public static StubTypeContext createStubTypeContext(ICompilationUnit cu, CompilationUnit root, int focalPosition) throws CoreException {
    StringBuffer bufBefore = new StringBuffer();
    StringBuffer bufAfter = new StringBuffer();
    int introEnd = 0;
    PackageDeclaration pack = root.getPackage();
    if (pack != null)
        introEnd = pack.getStartPosition() + pack.getLength();
    List<ImportDeclaration> imports = root.imports();
    if (imports.size() > 0) {
        ImportDeclaration lastImport = imports.get(imports.size() - 1);
        introEnd = lastImport.getStartPosition() + lastImport.getLength();
    }
    bufBefore.append(cu.getBuffer().getText(0, introEnd));
    fillWithTypeStubs(bufBefore, bufAfter, focalPosition, root.types());
    bufBefore.append(' ');
    bufAfter.insert(0, ' ');
    return new StubTypeContext(cu, bufBefore.toString(), bufAfter.toString());
}

Example 5 with ImportDeclaration

use of org.eclipse.jdt.core.dom.ImportDeclaration in project AutoRefactor by JnRouvignac.

the class ReplaceQualifiedNamesBySimpleNamesRefactoring method visit.

@Override
public boolean visit(TypeDeclaration node) {
    final ITypeBinding typeBinding = node.resolveBinding();
    if (typeBinding != null && !typeBinding.isNested() && node.getParent() instanceof CompilationUnit) {
        final CompilationUnit compilationUnit = (CompilationUnit) node.getParent();
        for (final ImportDeclaration importDecl : imports(compilationUnit)) {
            readImport(importDecl);
        }
        importTypesFromPackage("java.lang", compilationUnit);
        node.accept(new NamesCollector());
    }
    return VISIT_SUBTREE;
}