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/*
 *
 * ***** BEGIN LICENSE BLOCK *****
 * Version: MPL 1.1/GPL 2.0
 *
 * The contents of this file are subject to the Mozilla Public License Version
 * 1.1 (the "License"); you may not use this file except in compliance with
 * the License. You may obtain a copy of the License at
 * http://www.mozilla.org/MPL/
 *
 * Software distributed under the License is distributed on an "AS IS" basis,
 * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
 * for the specific language governing rights and limitations under the
 * License.
 *
 * The Original Code is Rhino code, released
 * May 6, 1999.
 *
 * The Initial Developer of the Original Code is
 * Netscape Communications Corporation.
 * Portions created by the Initial Developer are Copyright (C) 1997-1999
 * the Initial Developer. All Rights Reserved.
 *
 * Contributor(s):
 *   Bob Jervis
 *   Google Inc.
 *
 * Alternatively, the contents of this file may be used under the terms of
 * the GNU General Public License Version 2 or later (the "GPL"), in which
 * case the provisions of the GPL are applicable instead of those above. If
 * you wish to allow use of your version of this file only under the terms of
 * the GPL and not to allow others to use your version of this file under the
 * MPL, indicate your decision by deleting the provisions above and replacing
 * them with the notice and other provisions required by the GPL. If you do
 * not delete the provisions above, a recipient may use your version of this
 * file under either the MPL or the GPL.
 *
 * ***** END LICENSE BLOCK ***** */

package com.google.javascript.rhino;

import static com.google.common.base.Preconditions.checkArgument;

import com.google.common.annotations.VisibleForTesting;
import com.google.common.base.MoreObjects;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableMap;
import com.google.common.collect.ImmutableSet;
import com.google.common.collect.Iterables;
import java.io.Serializable;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.HashSet;
import java.util.Iterator;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Map.Entry;
import java.util.Objects;
import java.util.Set;

/**
 * JSDoc information describing JavaScript code. JSDoc is represented as a unified object with
 * fields for each JSDoc annotation, even though some combinations are incorrect. For instance, if a
 * JSDoc describes an enum, it cannot have information about a return type. This implementation
 * takes advantage of such incompatibilities to reuse fields for multiple purposes, reducing memory
 * consumption.
 *
 * 

Constructing {@link JSDocInfo} objects is simplified by {@link JSDocInfoBuilder} which * provides early incompatibility detection. * */ public class JSDocInfo implements Serializable { private static final long serialVersionUID = 1L; /** * Visibility categories. The {@link Visibility#ordinal()} can be used as a * numerical indicator of privacy, where 0 is the most private. This means * that the {@link Visibility#compareTo} method can be used to * determine if a visibility is more permissive than another. */ public enum Visibility { PRIVATE, PACKAGE, PROTECTED, PUBLIC, // If visibility is not specified, we just assume that visibility // is inherited from the super class. INHERITED } // Bitfield property indicies. static class Property { static final int NG_INJECT = 0, WIZ_ACTION = 1, // Polymer specific POLYMER_BEHAVIOR = 2, POLYMER = 3, CUSTOM_ELEMENT = 4, MIXIN_CLASS = 5, MIXIN_FUNCTION = 6; } private static final class LazilyInitializedInfo implements Serializable { private static final long serialVersionUID = 1L; // Function information private JSTypeExpression baseType; private ArrayList extendedInterfaces; private ArrayList implementedInterfaces; private LinkedHashMap parameters; private ArrayList thrownTypes; private ArrayList templateTypeNames; private Set disposedParameters; private LinkedHashMap typeTransformations; // Other information private String description; private String meaning; private String deprecated; private String license; private ImmutableSet suppressions; private ImmutableSet modifies; private String lendsName; // Bit flags for properties. private int propertyBitField; @Override public String toString() { return MoreObjects.toStringHelper(this) .add("bitfield", (propertyBitField == 0) ? null : Integer.toHexString(propertyBitField)) .add("baseType", baseType) .add("extendedInterfaces", extendedInterfaces) .add("implementedInterfaces", implementedInterfaces) .add("parameters", parameters) .add("thrownTypes", thrownTypes) .add("templateTypeNames", templateTypeNames) .add("disposedParameters", disposedParameters) .add("typeTransformations", typeTransformations) .add("description", description) .add("meaning", meaning) .add("deprecated", deprecated) .add("license", license) .add("suppressions", suppressions) .add("lendsName", lendsName) .omitNullValues() .toString(); } @SuppressWarnings("MissingOverride") // Adding @Override breaks the GWT compilation. protected LazilyInitializedInfo clone() { return clone(false); } protected LazilyInitializedInfo clone(boolean cloneTypeNodes) { LazilyInitializedInfo other = new LazilyInitializedInfo(); other.baseType = cloneType(baseType, cloneTypeNodes); other.extendedInterfaces = cloneTypeList(extendedInterfaces, cloneTypeNodes); other.implementedInterfaces = cloneTypeList(implementedInterfaces, cloneTypeNodes); other.parameters = cloneTypeMap(parameters, cloneTypeNodes); other.thrownTypes = cloneTypeList(thrownTypes, cloneTypeNodes); other.templateTypeNames = templateTypeNames == null ? null : new ArrayList<>(templateTypeNames); other.disposedParameters = disposedParameters == null ? null : new HashSet<>(disposedParameters); other.typeTransformations = typeTransformations == null ? null : new LinkedHashMap<>(typeTransformations); other.description = description; other.meaning = meaning; other.deprecated = deprecated; other.license = license; other.suppressions = suppressions == null ? null : ImmutableSet.copyOf(suppressions); other.modifies = modifies == null ? null : ImmutableSet.copyOf(modifies); other.lendsName = lendsName; other.propertyBitField = propertyBitField; return other; } protected ArrayList cloneTypeList( ArrayList list, boolean cloneTypeExpressionNodes) { ArrayList newlist = null; if (list != null) { newlist = new ArrayList<>(list.size()); for (JSTypeExpression expr : list) { newlist.add(cloneType(expr, cloneTypeExpressionNodes)); } } return newlist; } protected LinkedHashMap cloneTypeMap( LinkedHashMap map, boolean cloneTypeExpressionNodes) { LinkedHashMap newmap = null; if (map != null) { newmap = new LinkedHashMap<>(); for (Entry entry : map.entrySet()) { JSTypeExpression value = entry.getValue(); newmap.put(entry.getKey(), cloneType(value, cloneTypeExpressionNodes)); } } return newmap; } // TODO(nnaze): Consider putting bit-fiddling logic in a reusable // location. void setBit(int bitIndex, boolean value) { int mask = getMaskForBitIndex(bitIndex); if (value) { propertyBitField |= mask; } else { propertyBitField ^= mask; } } boolean isBitSet(int bitIndex) { int mask = getMaskForBitIndex(bitIndex); return (mask & propertyBitField) != 0; } private int getMaskForBitIndex(int bitIndex) { checkArgument(bitIndex >= 0, "Bit index should be non-negative integer"); return 1 << bitIndex; } } private static final class LazilyInitializedDocumentation implements Serializable { private String sourceComment; private ArrayList markers; private LinkedHashMap parameters; private LinkedHashMap throwsDescriptions; private String blockDescription; private String fileOverview; private String returnDescription; private String version; private List authors; private List sees; } /** * A piece of information (found in a marker) which contains a position * with a string. */ public static class StringPosition extends SourcePosition { static boolean areEquivalent(StringPosition p1, StringPosition p2) { if (p1 == null && p2 == null) { return true; } if ((p1 == null && p2 != null) || (p1 != null && p2 == null)) { return false; } return Objects.equals(p1.getItem(), p2.getItem()) && p1.getStartLine() == p2.getStartLine() && p1.getPositionOnStartLine() == p2.getPositionOnStartLine() && p1.getEndLine() == p2.getEndLine() && p1.getPositionOnEndLine() == p2.getPositionOnEndLine(); } } /** * A piece of information (found in a marker) which contains a position * with a string that has no leading or trailing whitespace. */ static class TrimmedStringPosition extends StringPosition { @Override public void setItem(String item) { checkArgument( item.charAt(0) != ' ' && item.charAt(item.length() - 1) != ' ', "String has leading or trailing whitespace"); super.setItem(item); } } /** * A piece of information (found in a marker) which contains a position * with a name node. */ public static class NamePosition extends SourcePosition { static boolean areEquivalent(NamePosition p1, NamePosition p2) { if (p1 == null && p2 == null) { return true; } if ((p1 == null && p2 != null) || (p1 != null && p2 == null)) { return false; } if ((p1.getItem() == null && p2.getItem() != null) || (p1.getItem() != null && p2.getItem() == null)) { return false; } return ((p1.getItem() == null && p2.getItem() == null) || p1.getItem().isEquivalentTo(p2.getItem())) && p1.getStartLine() == p2.getStartLine() && p1.getPositionOnStartLine() == p2.getPositionOnStartLine() && p1.getEndLine() == p2.getEndLine() && p1.getPositionOnEndLine() == p2.getPositionOnEndLine(); } } /** * A piece of information (found in a marker) which contains a position * with a type expression syntax tree. */ public static class TypePosition extends SourcePosition { private boolean brackets = false; /** Returns whether the type has curly braces around it. */ public boolean hasBrackets() { return brackets; } void setHasBrackets(boolean newVal) { brackets = newVal; } static boolean areEquivalent(TypePosition p1, TypePosition p2) { if (p1 == null && p2 == null) { return true; } if ((p1 == null && p2 != null) || (p1 != null && p2 == null)) { return false; } if ((p1.getItem() == null && p2.getItem() != null) || (p1.getItem() != null && p2.getItem() == null)) { return false; } return ((p1.getItem() == null && p2.getItem() == null) || p1.getItem().isEquivalentTo(p2.getItem())) && p1.getStartLine() == p2.getStartLine() && p1.getPositionOnStartLine() == p2.getPositionOnStartLine() && p1.getEndLine() == p2.getEndLine() && p1.getPositionOnEndLine() == p2.getPositionOnEndLine() && p1.brackets == p2.brackets; } } /** * Defines a class for containing the parsing information * for this JSDocInfo. For each annotation found in the * JsDoc, a marker will be created indicating the annotation * itself, the name of the annotation (if any; for example, * a @param has a name, but a @return does not), the * textual description found on that annotation and, if applicable, * the type declaration. All this information is only collected * if documentation collection is turned on. */ public static final class Marker { private TrimmedStringPosition annotation; private NamePosition nameNode; private StringPosition description; private TypePosition type; /** * Gets the position information for the annotation name. (e.g., "param") */ public StringPosition getAnnotation() { return annotation; } void setAnnotation(TrimmedStringPosition p) { annotation = p; } /** * Gets the position information for the name found * in an @param tag. */ public NamePosition getNameNode() { return nameNode; } void setNameNode(NamePosition p) { nameNode = p; } /** * Gets the position information for the description found * in a block tag. */ public StringPosition getDescription() { return description; } void setDescription(StringPosition p) { description = p; } /** * Gets the position information for the type expression found * in some block tags, like "@param" and "@return". */ public TypePosition getType() { return type; } void setType(TypePosition p) { type = p; } private static boolean areEquivalent(Marker m1, Marker m2) { if (m1 == null && m2 == null) { return true; } if ((m1 == null && m2 != null) || (m1 != null && m2 == null)) { return false; } return TrimmedStringPosition.areEquivalent(m1.annotation, m2.annotation) && NamePosition.areEquivalent(m1.nameNode, m2.nameNode) && StringPosition.areEquivalent(m1.description, m2.description) && TypePosition.areEquivalent(m1.type, m2.type); } } private LazilyInitializedInfo info; private LazilyInitializedDocumentation documentation; private Visibility visibility; /** * The {@link #isConstant()}, {@link #isConstructor()}, {@link #isInterface}, * {@link #isHidden()} and other flags as well as * whether the {@link #type} field stores a value for {@link #getType()}, * {@link #getReturnType()} or {@link #getEnumParameterType()}. * * @see #setFlag(boolean, int) * @see #getFlag(int) * @see #setType(JSTypeExpression, int) * @see #getType(int) */ private int bitset; /** * The type for {@link #getType()}, {@link #getReturnType()} or * {@link #getEnumParameterType()}. The knowledge of which one is recorded is * stored in the {@link #bitset} field. * * @see #setType(JSTypeExpression, int) * @see #getType(int) */ private JSTypeExpression type; /** * The type for {@link #getThisType()}. */ private JSTypeExpression thisType; /** * Whether the type annotation was inlined. */ private boolean inlineType; /** * Whether to include documentation. * * @see JSDocInfo.LazilyInitializedDocumentation */ private boolean includeDocumentation; /** * Position of the original comment. */ private int originalCommentPosition; // We use a bit map to represent whether or not the JSDoc contains // one of the "boolean" annotation types (annotations like @constructor, // for which the presence of the annotation alone is significant). // Mask all the boolean annotation types private static final int MASK_FLAGS = 0x3FFFFFFF; private static final int MASK_CONSTANT = 0x00000001; // @const private static final int MASK_CONSTRUCTOR = 0x00000002; // @constructor private static final int MASK_DEFINE = 0x00000004; // @define private static final int MASK_HIDDEN = 0x00000008; // @hidden private static final int MASK_TYPE_SUMMARY = 0x00000010; // @typeSummary private static final int MASK_FINAL = 0x00000020; // @final private static final int MASK_OVERRIDE = 0x00000040; // @override private static final int MASK_UNUSED_1 = 0x00000080; // private static final int MASK_DEPRECATED = 0x00000100; // @deprecated private static final int MASK_INTERFACE = 0x00000200; // @interface private static final int MASK_EXPORT = 0x00000400; // @export private static final int MASK_NOINLINE = 0x00000800; // @noinline private static final int MASK_FILEOVERVIEW = 0x00001000; // @fileoverview private static final int MASK_IMPLICITCAST = 0x00002000; // @implicitCast private static final int MASK_NOSIDEEFFECTS = 0x00004000; // @nosideeffects private static final int MASK_EXTERNS = 0x00008000; // @externs private static final int MASK_XIDGEN = 0x00010000; // @idGenerator {xid} private static final int MASK_NOCOMPILE = 0x00020000; // @nocompile private static final int MASK_CONSISTIDGEN = 0x00040000; // @idGenerator {consistent} private static final int MASK_IDGEN = 0x00080000; // @idGenerator {unique} private static final int MASK_EXPOSE = 0x00100000; // @expose private static final int MASK_UNRESTRICTED = 0x00200000; // @unrestricted private static final int MASK_STRUCT = 0x00400000; // @struct private static final int MASK_DICT = 0x00800000; // @dict private static final int MASK_STABLEIDGEN = 0x01000000; // @idGenerator {stable} private static final int MASK_MAPPEDIDGEN = 0x02000000; // @idGenerator {mapped} private static final int MASK_NOCOLLAPSE = 0x04000000; // @nocollapse private static final int MASK_RECORD = 0x08000000; // @record private static final int MASK_ABSTRACT = 0x10000000; // @abstract // No more masks available // 3 bit type field stored in the top 3 bits of the most significant // nibble. private static final int MASK_TYPEFIELD = 0xE0000000; // 1110... private static final int TYPEFIELD_TYPE = 0x20000000; // 0010... private static final int TYPEFIELD_RETURN = 0x40000000; // 0100... private static final int TYPEFIELD_ENUM = 0x60000000; // 0110... private static final int TYPEFIELD_TYPEDEF = 0x80000000; // 1000... /** * Creates a {@link JSDocInfo} object. This object should be created using * a {@link JSDocInfoBuilder}. */ JSDocInfo(boolean includeDocumentation) { this.includeDocumentation = includeDocumentation; } // Visible for testing. JSDocInfo() {} @SuppressWarnings("MissingOverride") // Adding @Override breaks the GWT compilation. public JSDocInfo clone() { return clone(false); } public JSDocInfo clone(boolean cloneTypeNodes) { JSDocInfo other = new JSDocInfo(); other.info = this.info == null ? null : this.info.clone(cloneTypeNodes); other.documentation = this.documentation; other.visibility = this.visibility; other.bitset = this.bitset; other.type = cloneType(this.type, cloneTypeNodes); other.thisType = cloneType(this.thisType, cloneTypeNodes); other.includeDocumentation = this.includeDocumentation; other.originalCommentPosition = this.originalCommentPosition; return other; } private static JSTypeExpression cloneType(JSTypeExpression expr, boolean cloneTypeNodes) { if (expr != null) { return cloneTypeNodes ? expr.copy() : expr; } return null; } @VisibleForTesting public static boolean areEquivalent(JSDocInfo jsDoc1, JSDocInfo jsDoc2) { if (jsDoc1 == null && jsDoc2 == null) { return true; } if (jsDoc1 == null || jsDoc2 == null) { return false; } if (!Objects.equals(jsDoc1.getParameterNames(), jsDoc2.getParameterNames())) { return false; } for (String param : jsDoc1.getParameterNames()) { if (!Objects.equals(jsDoc1.getParameterType(param), jsDoc2.getParameterType(param))) { return false; } } if (jsDoc1.getMarkers().size() != jsDoc2.getMarkers().size()) { return false; } Iterator it1 = jsDoc1.getMarkers().iterator(); Iterator it2 = jsDoc2.getMarkers().iterator(); while (it1.hasNext()) { if (!Marker.areEquivalent(it1.next(), it2.next())) { return false; } } return Objects.equals(jsDoc1.getAuthors(), jsDoc2.getAuthors()) && Objects.equals(jsDoc1.getBaseType(), jsDoc2.getBaseType()) && Objects.equals(jsDoc1.getBlockDescription(), jsDoc2.getBlockDescription()) && Objects.equals(jsDoc1.getFileOverview(), jsDoc2.getFileOverview()) && Objects.equals(jsDoc1.getImplementedInterfaces(), jsDoc2.getImplementedInterfaces()) && Objects.equals(jsDoc1.getEnumParameterType(), jsDoc2.getEnumParameterType()) && Objects.equals(jsDoc1.getExtendedInterfaces(), jsDoc2.getExtendedInterfaces()) && Objects.equals(jsDoc1.getLendsName(), jsDoc2.getLendsName()) && Objects.equals(jsDoc1.getLicense(), jsDoc2.getLicense()) && Objects.equals(jsDoc1.getMeaning(), jsDoc2.getMeaning()) && Objects.equals(jsDoc1.getModifies(), jsDoc2.getModifies()) && Objects.equals(jsDoc1.getOriginalCommentString(), jsDoc2.getOriginalCommentString()) && Objects.equals(jsDoc1.getPropertyBitField(), jsDoc2.getPropertyBitField()) && Objects.equals(jsDoc1.getReferences(), jsDoc2.getReferences()) && Objects.equals(jsDoc1.getReturnDescription(), jsDoc2.getReturnDescription()) && Objects.equals(jsDoc1.getReturnType(), jsDoc2.getReturnType()) && Objects.equals(jsDoc1.getSuppressions(), jsDoc2.getSuppressions()) && Objects.equals(jsDoc1.getTemplateTypeNames(), jsDoc2.getTemplateTypeNames()) && Objects.equals(jsDoc1.getThisType(), jsDoc2.getThisType()) && Objects.equals(jsDoc1.getThrownTypes(), jsDoc2.getThrownTypes()) && Objects.equals(jsDoc1.getTypedefType(), jsDoc2.getTypedefType()) && Objects.equals(jsDoc1.getType(), jsDoc2.getType()) && Objects.equals(jsDoc1.getVersion(), jsDoc2.getVersion()) && Objects.equals(jsDoc1.getVisibility(), jsDoc2.getVisibility()) && jsDoc1.bitset == jsDoc2.bitset; } boolean isDocumentationIncluded() { return includeDocumentation; } void setConsistentIdGenerator(boolean value) { setFlag(value, MASK_CONSISTIDGEN); } void setStableIdGenerator(boolean value) { setFlag(value, MASK_STABLEIDGEN); } void setXidGenerator(boolean value) { setFlag(value, MASK_XIDGEN); } void setMappedIdGenerator(boolean value) { setFlag(value, MASK_MAPPEDIDGEN); } void setConstant(boolean value) { setFlag(value, MASK_CONSTANT); } void setFinal(boolean value) { setFlag(value, MASK_FINAL); } void setConstructor(boolean value) { setFlag(value, MASK_CONSTRUCTOR); } void setAbstract() { setFlag(true, MASK_ABSTRACT); } void setUnrestricted() { setFlag(true, MASK_UNRESTRICTED); } void setStruct() { setFlag(true, MASK_STRUCT); } void setDict() { setFlag(true, MASK_DICT); } void setDefine(boolean value) { setFlag(value, MASK_DEFINE); } void setHidden(boolean value) { setFlag(value, MASK_HIDDEN); } void setOverride(boolean value) { setFlag(value, MASK_OVERRIDE); } void setDeprecated(boolean value) { setFlag(value, MASK_DEPRECATED); } void setInterface(boolean value) { setFlag(value, MASK_INTERFACE); } void setExport(boolean value) { setFlag(value, MASK_EXPORT); } void setExpose(boolean value) { setFlag(value, MASK_EXPOSE); } void setIdGenerator(boolean value) { setFlag(value, MASK_IDGEN); } void setImplicitCast(boolean value) { setFlag(value, MASK_IMPLICITCAST); } void setNoSideEffects(boolean value) { setFlag(value, MASK_NOSIDEEFFECTS); } void setExterns(boolean value) { setFlag(value, MASK_EXTERNS); } void setTypeSummary(boolean value) { setFlag(value, MASK_TYPE_SUMMARY); } void setNoCompile(boolean value) { setFlag(value, MASK_NOCOMPILE); } void setNoCollapse(boolean value) { setFlag(value, MASK_NOCOLLAPSE); } void setNoInline(boolean value) { setFlag(value, MASK_NOINLINE); } private void setFlag(boolean value, int mask) { if (value) { bitset |= mask; } else { bitset &= ~mask; } } void setImplicitMatch(boolean value) { setFlag(value, MASK_RECORD); } /** * @return whether the {@code @consistentIdGenerator} is present on * this {@link JSDocInfo} */ public boolean isConsistentIdGenerator() { return getFlag(MASK_CONSISTIDGEN); } /** * @return whether the {@code @stableIdGenerator} is present on this {@link JSDocInfo}. */ public boolean isStableIdGenerator() { return getFlag(MASK_STABLEIDGEN); } /** * @return whether the {@code @idGenerator {xid}} is present on this {@link JSDocInfo}. */ public boolean isXidGenerator() { return getFlag(MASK_XIDGEN); } /** * @return whether the {@code @idGenerator {mapped}} is present on this {@link JSDocInfo}. */ public boolean isMappedIdGenerator() { return getFlag(MASK_MAPPEDIDGEN); } public boolean isConstant() { return getFlag(MASK_CONSTANT | MASK_DEFINE | MASK_FINAL); } /** * Returns whether the {@code @const} annotation is present on this {@link JSDocInfo}. */ public boolean hasConstAnnotation() { return getFlag(MASK_CONSTANT); } /** * Returns whether the {@code @final} annotation is present on this {@link JSDocInfo}. */ public boolean isFinal() { return getFlag(MASK_FINAL); } /** * Returns whether the {@code @constructor} annotation is present on this * {@link JSDocInfo}. */ public boolean isConstructor() { return getFlag(MASK_CONSTRUCTOR); } /** * Returns whether the {@code @abstract} annotation is present on this * {@link JSDocInfo}. */ public boolean isAbstract() { return getFlag(MASK_ABSTRACT); } /** * Returns whether the {@code @record} annotation is present on this * {@link JSDocInfo}. */ public boolean usesImplicitMatch() { return getFlag(MASK_RECORD); } /** * Returns whether the {@code @unrestricted} annotation is present on this * {@link JSDocInfo}. */ public boolean makesUnrestricted() { return getFlag(MASK_UNRESTRICTED); } /** * Returns whether the {@code @struct} annotation is present on this * {@link JSDocInfo}. */ public boolean makesStructs() { return getFlag(MASK_STRUCT); } /** * Returns whether the {@code @dict} annotation is present on this * {@link JSDocInfo}. */ public boolean makesDicts() { return getFlag(MASK_DICT); } /** * Returns whether the {@code @define} annotation is present on this * {@link JSDocInfo}. If this annotation is present, then the * {@link #getType()} method will retrieve the define type. */ public boolean isDefine() { return getFlag(MASK_DEFINE); } /** * Returns whether the {@code @hidden} annotation is present on this * {@link JSDocInfo}. */ public boolean isHidden() { return getFlag(MASK_HIDDEN); } /** * Returns whether the {@code @override} annotation is present on this * {@link JSDocInfo}. */ public boolean isOverride() { return getFlag(MASK_OVERRIDE); } /** * Returns whether the {@code @deprecated} annotation is present on this * {@link JSDocInfo}. */ public boolean isDeprecated() { return getFlag(MASK_DEPRECATED); } /** * Returns whether the {@code @interface} annotation is present on this * {@link JSDocInfo}. */ public boolean isInterface() { return getFlag(MASK_INTERFACE) || getFlag(MASK_RECORD); } public boolean isConstructorOrInterface() { return isConstructor() || isInterface(); } /** * Returns whether the {@code @export} annotation is present on this * {@link JSDocInfo}. */ public boolean isExport() { return getFlag(MASK_EXPORT); } /** * Returns whether the {@code @expose} annotation is present on this * {@link JSDocInfo}. */ public boolean isExpose() { return getFlag(MASK_EXPOSE); } /** * @return whether the {@code @idGenerator} is present on * this {@link JSDocInfo} */ public boolean isIdGenerator() { return getFlag(MASK_IDGEN); } /** * Returns whether the {@code @implicitCast} annotation is present on this * {@link JSDocInfo}. */ public boolean isImplicitCast() { return getFlag(MASK_IMPLICITCAST); } /** * Returns whether the {@code @nosideeffects} annotation is present on this * {@link JSDocInfo}. */ public boolean isNoSideEffects() { return getFlag(MASK_NOSIDEEFFECTS); } /** * Returns whether the {@code @externs} annotation is present on this * {@link JSDocInfo}. */ public boolean isExterns() { return getFlag(MASK_EXTERNS); } /** * Returns whether the {@code @typeSummary} annotation is present on this * {@link JSDocInfo}. */ public boolean isTypeSummary() { return getFlag(MASK_TYPE_SUMMARY); } /** * Returns whether the {@code @nocompile} annotation is present on this * {@link JSDocInfo}. */ public boolean isNoCompile() { return getFlag(MASK_NOCOMPILE); } /** * Returns whether the {@code @nocollapse} annotation is present on this * {@link JSDocInfo}. */ public boolean isNoCollapse() { return getFlag(MASK_NOCOLLAPSE); } /** * Returns whether the {@code @noinline} annotation is present on this * {@link JSDocInfo}. */ public boolean isNoInline() { return getFlag(MASK_NOINLINE); } /** * @return Whether there is a declaration present on this {@link JSDocInfo}. */ public boolean containsDeclaration() { return (hasType() || hasReturnType() || hasEnumParameterType() || hasTypedefType() || hasThisType() || getParameterCount() > 0 || visibility != Visibility.INHERITED || getFlag(MASK_CONSTANT | MASK_CONSTRUCTOR | MASK_DEFINE | MASK_OVERRIDE | MASK_EXPORT | MASK_EXPOSE | MASK_DEPRECATED | MASK_INTERFACE | MASK_IMPLICITCAST | MASK_NOSIDEEFFECTS | MASK_RECORD)); } /** * @return Whether there is a declaration of a callable type. */ public boolean containsFunctionDeclaration() { boolean hasFunctionType = hasType() && getType().getRoot().isFunction(); return hasFunctionType || hasReturnType() || hasThisType() || getParameterCount() > 0 || getFlag(MASK_CONSTRUCTOR) || (getFlag(MASK_NOSIDEEFFECTS) && !hasType()); } // For jsdocs that create new types. Not to be confused with jsdocs that // declare the type of a variable or property. public boolean containsTypeDefinition() { return isConstructor() || isInterface() || hasEnumParameterType() || hasTypedefType(); } private boolean getFlag(int mask) { return (bitset & mask) != 0x00; } void setVisibility(Visibility visibility) { this.visibility = visibility; } private void lazyInitInfo() { if (info == null) { info = new LazilyInitializedInfo(); } } /** * Lazily initializes the documentation information object, but only * if the JSDocInfo was told to keep such information around. */ private boolean lazyInitDocumentation() { if (!includeDocumentation) { return false; } if (documentation == null) { documentation = new LazilyInitializedDocumentation(); } return true; } /** * Adds a marker to the documentation (if it exists) and * returns the marker. Returns null otherwise. */ Marker addMarker() { if (!lazyInitDocumentation()) { return null; } if (documentation.markers == null) { documentation.markers = new ArrayList<>(); } Marker marker = new Marker(); documentation.markers.add(marker); return marker; } /** * Sets the deprecation reason. * * @param reason The deprecation reason */ boolean setDeprecationReason(String reason) { lazyInitInfo(); if (info.deprecated != null) { return false; } info.deprecated = reason; return true; } /** * Add a suppressed warning. */ void addSuppression(String suppression) { lazyInitInfo(); if (info.suppressions == null) { info.suppressions = ImmutableSet.of(suppression); } else { info.suppressions = new ImmutableSet.Builder() .addAll(info.suppressions) .add(suppression) .build(); } } /** * Sets suppressed warnings. * @param suppressions A list of suppressed warning types. */ boolean setSuppressions(Set suppressions) { lazyInitInfo(); if (info.suppressions != null) { return false; } info.suppressions = ImmutableSet.copyOf(suppressions); return true; } /** * Sets modifies values. * @param modifies A list of modifies types. */ boolean setModifies(Set modifies) { lazyInitInfo(); if (info.modifies != null) { return false; } info.modifies = ImmutableSet.copyOf(modifies); return true; } /** * Documents the version. */ boolean documentVersion(String version) { if (!lazyInitDocumentation()) { return true; } if (documentation.version != null) { return false; } documentation.version = version; return true; } /** * Documents a reference (i.e. adds a "see" reference to the list). */ boolean documentReference(String reference) { if (!lazyInitDocumentation()) { return true; } if (documentation.sees == null) { documentation.sees = new ArrayList<>(); } documentation.sees.add(reference); return true; } /** * Documents the author (i.e. adds it to the author list). */ boolean documentAuthor(String author) { if (!lazyInitDocumentation()) { return true; } if (documentation.authors == null) { documentation.authors = new ArrayList<>(); } documentation.authors.add(author); return true; } /** * Documents the throws (i.e. adds it to the throws list). */ boolean documentThrows(JSTypeExpression type, String throwsDescription) { if (!lazyInitDocumentation()) { return true; } if (documentation.throwsDescriptions == null) { documentation.throwsDescriptions = new LinkedHashMap<>(); } if (!documentation.throwsDescriptions.containsKey(type)) { documentation.throwsDescriptions.put(type, throwsDescription); return true; } return false; } /** * Documents a parameter. Parameters are described using the {@code @param} * annotation. * * @param parameter the parameter's name * @param description the parameter's description */ boolean documentParam(String parameter, String description) { if (!lazyInitDocumentation()) { return true; } if (documentation.parameters == null) { documentation.parameters = new LinkedHashMap<>(); } if (!documentation.parameters.containsKey(parameter)) { documentation.parameters.put(parameter, description); return true; } else { return false; } } /** * Documents the block-level comment/description. * * @param description the description */ boolean documentBlock(String description) { if (!lazyInitDocumentation()) { return true; } if (documentation.blockDescription != null) { return false; } documentation.blockDescription = description; return true; } /** * Documents the fileoverview comment/description. * * @param description the description */ boolean documentFileOverview(String description) { setFlag(true, MASK_FILEOVERVIEW); if (!lazyInitDocumentation()) { return true; } if (documentation.fileOverview != null) { return false; } documentation.fileOverview = description; return true; } /** * Documents the return value. Return value is described using the * {@code @return} annotation. * * @param description the return value's description */ boolean documentReturn(String description) { if (!lazyInitDocumentation()) { return true; } if (documentation.returnDescription != null) { return false; } documentation.returnDescription = description; return true; } /** * Declares a parameter. Parameters are described using the {@code @param} * annotation. * * @param jsType the parameter's type, it may be {@code null} when the * {@code @param} annotation did not specify a type. * @param parameter the parameter's name */ boolean declareParam(JSTypeExpression jsType, String parameter) { lazyInitInfo(); if (info.parameters == null) { info.parameters = new LinkedHashMap<>(); } if (!info.parameters.containsKey(parameter)) { info.parameters.put(parameter, jsType); return true; } else { return false; } } /** * Declares a template type name. Template type names are described using the * {@code @template} annotation. * * @param newTemplateTypeName the template type name. */ boolean declareTemplateTypeName(String newTemplateTypeName) { lazyInitInfo(); if (isTypeTransformationName(newTemplateTypeName) || hasTypedefType()) { return false; } if (info.templateTypeNames == null){ info.templateTypeNames = new ArrayList<>(); } else if (info.templateTypeNames.contains(newTemplateTypeName)) { return false; } info.templateTypeNames.add(newTemplateTypeName); return true; } private boolean isTemplateTypeName(String name) { if (info.templateTypeNames == null) { return false; } return info.templateTypeNames.contains(name); } private boolean isTypeTransformationName(String name) { if (info.typeTransformations == null) { return false; } return info.typeTransformations.containsKey(name); } /** * Declares a type transformation expression. These expressions are described * using a {@code @template} annotation of the form * {@code @template T := TTL-Expr =:} * * @param newName The name associated to the type transformation. * @param expr The type transformation expression. */ boolean declareTypeTransformation(String newName, Node expr) { lazyInitInfo(); if (isTemplateTypeName(newName)) { return false; } if (info.typeTransformations == null){ // A LinkedHashMap is used to keep the insertion order. The type // transformation expressions will be evaluated in this order. info.typeTransformations = new LinkedHashMap<>(); } else if (info.typeTransformations.containsKey(newName)) { return false; } info.typeTransformations.put(newName, expr); return true; } /** * Declares that the method throws a given type. * * @param jsType The type that can be thrown by the method. */ boolean declareThrows(JSTypeExpression jsType) { lazyInitInfo(); if (info.thrownTypes == null) { info.thrownTypes = new ArrayList<>(); } info.thrownTypes.add(jsType); return true; } /** * Gets the visibility specified by {@code @private}, {@code @protected} or * {@code @public} annotation. If no visibility is specified, visibility * is inherited from the base class. */ public Visibility getVisibility() { return visibility; } /** * Gets the type of a given named parameter. * @param parameter the parameter's name * @return the parameter's type or {@code null} if this parameter is not * defined or has a {@code null} type */ public JSTypeExpression getParameterType(String parameter) { if (info == null || info.parameters == null) { return null; } return info.parameters.get(parameter); } /** * Returns whether the parameter is defined. */ public boolean hasParameter(String parameter) { if (info == null || info.parameters == null) { return false; } return info.parameters.containsKey(parameter); } /** * Returns whether the parameter has an attached type. * * @return {@code true} if the parameter has an attached type, {@code false} * if the parameter has no attached type or does not exist. */ public boolean hasParameterType(String parameter) { return getParameterType(parameter) != null; } /** * Returns the set of names of the defined parameters. The iteration order * of the returned set is the order in which parameters are defined in the * JSDoc, rather than the order in which the function declares them. * * @return the set of names of the defined parameters. The returned set is * immutable. */ public Set getParameterNames() { if (info == null || info.parameters == null) { return ImmutableSet.of(); } return ImmutableSet.copyOf(info.parameters.keySet()); } /** * Returns the nth name in the defined parameters. The iteration order * is the order in which parameters are defined in the JSDoc, rather * than the order in which the function declares them. */ public String getParameterNameAt(int index) { if (info == null || info.parameters == null) { return null; } if (index >= info.parameters.size()) { return null; } return Iterables.get(info.parameters.keySet(), index); } /** * Gets the number of parameters defined. */ public int getParameterCount() { if (info == null || info.parameters == null) { return 0; } return info.parameters.size(); } void setInlineType() { this.inlineType = true; } void setReturnType(JSTypeExpression type) { setType(type, TYPEFIELD_RETURN); } void setEnumParameterType(JSTypeExpression type) { setType(type, TYPEFIELD_ENUM); } boolean declareTypedefType(JSTypeExpression type) { if (getTemplateTypeNames().isEmpty()) { setType(type, TYPEFIELD_TYPEDEF); return true; } return false; } void setType(JSTypeExpression type) { setType(type, TYPEFIELD_TYPE); } private void setType(JSTypeExpression type, int mask) { if ((bitset & MASK_TYPEFIELD) != 0) { throw new IllegalStateException( "API tried to add two incompatible type tags. " + "This should have been blocked and emitted a warning."); } this.bitset = (bitset & MASK_FLAGS) | mask; this.type = type; } /** * Returns the list of thrown types. */ public List getThrownTypes() { if (info == null || info.thrownTypes == null) { return ImmutableList.of(); } return Collections.unmodifiableList(info.thrownTypes); } /** * Get the message for a given thrown type. */ public String getThrowsDescriptionForType(JSTypeExpression type) { if (documentation == null || documentation.throwsDescriptions == null) { return null; } return documentation.throwsDescriptions.get(type); } /** * Returns whether an enum parameter type, specified using the {@code @enum} * annotation, is present on this JSDoc. */ public boolean hasEnumParameterType() { return hasType(TYPEFIELD_ENUM); } /** * Returns whether a typedef parameter type, specified using the * {@code @typedef} annotation, is present on this JSDoc. */ public boolean hasTypedefType() { return hasType(TYPEFIELD_TYPEDEF); } /** * Returns whether this {@link JSDocInfo} contains a type for {@code @return} * annotation. */ public boolean hasReturnType() { return hasType(TYPEFIELD_RETURN); } /** * Returns whether a type, specified using the {@code @type} annotation, is * present on this JSDoc. */ public boolean hasType() { return hasType(TYPEFIELD_TYPE); } private boolean hasType(int mask) { return (bitset & MASK_TYPEFIELD) == mask; } public boolean hasTypeInformation() { return (bitset & MASK_TYPEFIELD) != 0; } /** * Returns whether the type annotation was inlined. */ public boolean isInlineType() { return inlineType; } /** * Gets the return type specified by the {@code @return} annotation. */ public JSTypeExpression getReturnType() { return getType(TYPEFIELD_RETURN); } /** * Gets the enum parameter type specified by the {@code @enum} annotation. */ public JSTypeExpression getEnumParameterType() { return getType(TYPEFIELD_ENUM); } /** * Gets the typedef type specified by the {@code @type} annotation. */ public JSTypeExpression getTypedefType() { return getType(TYPEFIELD_TYPEDEF); } /** * Gets the type specified by the {@code @type} annotation. */ public JSTypeExpression getType() { return getType(TYPEFIELD_TYPE); } private JSTypeExpression getType(int typefield) { if ((MASK_TYPEFIELD & bitset) == typefield) { return type; } else { return null; } } /** * Gets the type specified by the {@code @this} annotation. */ public JSTypeExpression getThisType() { return thisType; } /** * Sets the type specified by the {@code @this} annotation. */ void setThisType(JSTypeExpression type) { this.thisType = type; } /** * Returns whether this {@link JSDocInfo} contains a type for {@code @this} * annotation. */ public boolean hasThisType() { return thisType != null; } void setBaseType(JSTypeExpression type) { lazyInitInfo(); info.baseType = type; } /** * Gets the base type specified by the {@code @extends} annotation. */ public JSTypeExpression getBaseType() { return (info == null) ? null : info.baseType; } /** * Gets the description specified by the {@code @desc} annotation. */ public String getDescription() { return (info == null) ? null : info.description; } void setDescription(String desc) { lazyInitInfo(); info.description = desc; } /** * Gets the meaning specified by the {@code @meaning} annotation. * *

In localization systems, two messages with the same content but * different "meanings" may be translated differently. By default, we * use the name of the variable that the message is initialized to as * the "meaning" of the message. * *

But some code generators (like Closure Templates) inject their own * meaning with the jsdoc {@code @meaning} annotation. */ public String getMeaning() { return (info == null) ? null : info.meaning; } void setMeaning(String meaning) { lazyInitInfo(); info.meaning = meaning; } /** * Gets the name we're lending to in a {@code @lends} annotation. * *

In many reflection APIs, you pass an anonymous object to a function, * and that function mixes the anonymous object into another object. * The {@code @lends} annotation allows the type system to track * those property assignments. */ public String getLendsName() { return (info == null) ? null : info.lendsName; } void setLendsName(String name) { lazyInitInfo(); info.lendsName = name; } /** * Returns whether JSDoc is annotated with {@code @ngInject} annotation. */ public boolean isNgInject() { return (info != null) && info.isBitSet(Property.NG_INJECT); } void setNgInject(boolean ngInject) { lazyInitInfo(); info.setBit(Property.NG_INJECT, ngInject); } /** * Returns whether JSDoc is annotated with {@code @wizaction} annotation. */ public boolean isWizaction() { return (info != null) && info.isBitSet(Property.WIZ_ACTION); } void setWizaction(boolean wizaction) { lazyInitInfo(); info.setBit(Property.WIZ_ACTION, wizaction); } /** * Returns whether JSDoc is annotated with {@code @polymerBehavior} annotation. */ public boolean isPolymerBehavior() { return (info != null) && info.isBitSet(Property.POLYMER_BEHAVIOR); } void setPolymerBehavior(boolean polymerBehavior) { lazyInitInfo(); info.setBit(Property.POLYMER_BEHAVIOR, polymerBehavior); } /** Returns whether JSDoc is annotated with {@code @polymer} annotation. */ public boolean isPolymer() { return (info != null) && info.isBitSet(Property.POLYMER); } void setPolymer(boolean polymer) { lazyInitInfo(); info.setBit(Property.POLYMER, polymer); } /** Returns whether JSDoc is annotated with {@code @customElement} annotation. */ public boolean isCustomElement() { return (info != null) && info.isBitSet(Property.CUSTOM_ELEMENT); } void setCustomElement(boolean customElement) { lazyInitInfo(); info.setBit(Property.CUSTOM_ELEMENT, customElement); } /** Returns whether JSDoc is annotated with {@code @mixinClass} annotation. */ public boolean isMixinClass() { return (info != null) && info.isBitSet(Property.MIXIN_CLASS); } void setMixinClass(boolean mixinClass) { lazyInitInfo(); info.setBit(Property.MIXIN_CLASS, mixinClass); } /** Returns whether JSDoc is annotated with {@code @mixinFunction} annotation. */ public boolean isMixinFunction() { return (info != null) && info.isBitSet(Property.MIXIN_FUNCTION); } void setMixinFunction(boolean mixinFunction) { lazyInitInfo(); info.setBit(Property.MIXIN_FUNCTION, mixinFunction); } /** Returns whether JSDoc is annotated with {@code @disposes} annotation. */ public boolean isDisposes() { return (info == null) ? false : info.disposedParameters != null; } boolean setDisposedParameter(String parameterName) { lazyInitInfo(); // Lazily initialize disposedParameters if (info.disposedParameters == null) { info.disposedParameters = new HashSet<>(); } if (info.disposedParameters.contains(parameterName)) { return false; } else { info.disposedParameters.add(parameterName); return true; } } /** * Return whether the function disposes of specified parameter. */ public boolean disposesOf(String parameterName) { return isDisposes() && info.disposedParameters.contains(parameterName); } /** * Gets the description specified by the {@code @license} annotation. */ public String getLicense() { return (info == null) ? null : info.license; } /** * @param license String containing new license text. */ void setLicense(String license) { lazyInitInfo(); info.license = license; } @Override public String toString() { return "JSDocInfo"; } @VisibleForTesting public String toStringVerbose() { return MoreObjects.toStringHelper(this) .add("bitset", (bitset == 0) ? null : Integer.toHexString(bitset)) .add("documentation", documentation) .add("info", info) .add("originalComment", getOriginalCommentString()) .add("thisType", thisType) .add("type", type) .add("visibility", visibility) .omitNullValues() .toString(); } /** * Returns whether this {@link JSDocInfo} contains a type for {@code @extends} * annotation. */ public boolean hasBaseType() { return getBaseType() != null; } /** * Adds an implemented interface. Returns whether the interface was added. If * the interface was already present in the list, it won't get added again. */ boolean addImplementedInterface(JSTypeExpression interfaceName) { lazyInitInfo(); if (info.implementedInterfaces == null) { info.implementedInterfaces = new ArrayList<>(2); } if (info.implementedInterfaces.contains(interfaceName)) { return false; } info.implementedInterfaces.add(interfaceName); return true; } /** * Returns the types specified by the {@code @implements} annotation. * * @return An immutable list of JSTypeExpression objects that can * be resolved to types. */ public List getImplementedInterfaces() { if (info == null || info.implementedInterfaces == null) { return ImmutableList.of(); } return Collections.unmodifiableList(info.implementedInterfaces); } /** * Gets the number of interfaces specified by the {@code @implements} * annotation. */ public int getImplementedInterfaceCount() { if (info == null || info.implementedInterfaces == null) { return 0; } return info.implementedInterfaces.size(); } /** * Adds an extended interface (for interface only). * Returns whether the type was added. * if the type was already present in the list, it won't get added again. */ boolean addExtendedInterface(JSTypeExpression type) { lazyInitInfo(); if (info.extendedInterfaces == null) { info.extendedInterfaces = new ArrayList<>(2); } if (info.extendedInterfaces.contains(type)) { return false; } info.extendedInterfaces.add(type); return true; } /** * Returns the interfaces extended by an interface * * @return An immutable list of JSTypeExpression objects that can * be resolved to types. */ public List getExtendedInterfaces() { if (info == null || info.extendedInterfaces == null) { return ImmutableList.of(); } return Collections.unmodifiableList(info.extendedInterfaces); } /** * Gets the number of extended interfaces specified */ public int getExtendedInterfacesCount() { if (info == null || info.extendedInterfaces == null) { return 0; } return info.extendedInterfaces.size(); } /** * Returns the deprecation reason or null if none specified. */ public String getDeprecationReason() { return info == null ? null : info.deprecated; } /** * Returns the set of suppressed warnings. */ public Set getSuppressions() { Set suppressions = info == null ? null : info.suppressions; return suppressions == null ? Collections.emptySet() : suppressions; } /** * Returns the set of sideeffect notations. */ public Set getModifies() { Set modifies = info == null ? null : info.modifies; return modifies == null ? Collections.emptySet() : modifies; } private Integer getPropertyBitField() { return info == null ? null : info.propertyBitField; } void mergePropertyBitfieldFrom(JSDocInfo other) { if (other.info != null) { lazyInitInfo(); info.propertyBitField |= other.getPropertyBitField(); } } /** * Returns whether a description exists for the parameter with the specified * name. */ public boolean hasDescriptionForParameter(String name) { if (documentation == null || documentation.parameters == null) { return false; } return documentation.parameters.containsKey(name); } /** * Returns the description for the parameter with the given name, if its * exists. */ public String getDescriptionForParameter(String name) { if (documentation == null || documentation.parameters == null) { return null; } return documentation.parameters.get(name); } /** * Returns the list of authors or null if none. */ public Collection getAuthors() { return documentation == null ? null : documentation.authors; } /** * Returns the list of references or null if none. */ public Collection getReferences() { return documentation == null ? null : documentation.sees; } /** * Returns the version or null if none. */ public String getVersion() { return documentation == null ? null : documentation.version; } /** * Returns the description of the returned object or null if none specified. */ public String getReturnDescription() { return documentation == null ? null : documentation.returnDescription; } /** * Returns the block-level description or null if none specified. */ public String getBlockDescription() { return documentation == null ? null : documentation.blockDescription; } /** * Returns whether this has a fileoverview flag. */ public boolean hasFileOverview() { return getFlag(MASK_FILEOVERVIEW); } /** * Returns the file overview or null if none specified. */ public String getFileOverview() { return documentation == null ? null : documentation.fileOverview; } /** Gets the list of all markers for the documentation in this JSDoc. */ public Collection getMarkers() { return (documentation == null || documentation.markers == null) ? ImmutableList.of() : documentation.markers; } /** Gets the template type name. */ public ImmutableList getTemplateTypeNames() { if (info == null || info.templateTypeNames == null) { return ImmutableList.of(); } return ImmutableList.copyOf(info.templateTypeNames); } /** Gets the type transformations. */ public ImmutableMap getTypeTransformations() { if (info == null || info.typeTransformations == null) { return ImmutableMap.of(); } return ImmutableMap.copyOf(info.typeTransformations); } /** * Returns a collection of all type nodes that are a part of this JSDocInfo. * This includes @type, @this, @extends, @implements, @param, @throws, * and @return. Any future type specific JSDoc should make sure to add the * appropriate nodes here. * @return collection of all type nodes */ public Collection getTypeNodes() { List nodes = new ArrayList<>(); if (type != null) { nodes.add(type.getRoot()); } if (thisType != null) { nodes.add(thisType.getRoot()); } if (info != null) { if (info.baseType != null) { nodes.add(info.baseType.getRoot()); } if (info.extendedInterfaces != null) { for (JSTypeExpression interfaceType : info.extendedInterfaces) { if (interfaceType != null) { nodes.add(interfaceType.getRoot()); } } } if (info.implementedInterfaces != null) { for (JSTypeExpression interfaceType : info.implementedInterfaces) { if (interfaceType != null) { nodes.add(interfaceType.getRoot()); } } } if (info.parameters != null) { for (JSTypeExpression parameterType : info.parameters.values()) { if (parameterType != null) { nodes.add(parameterType.getRoot()); } } } if (info.thrownTypes != null) { for (JSTypeExpression thrownType : info.thrownTypes) { if (thrownType != null) { nodes.add(thrownType.getRoot()); } } } } return nodes; } public boolean hasModifies() { return info != null && info.modifies != null; } /** * Returns the original JSDoc comment string. Returns null unless * parseJsDocDocumentation is enabled via the ParserConfig. */ public String getOriginalCommentString() { return documentation == null ? null : documentation.sourceComment; } void setOriginalCommentString(String sourceComment) { if (!lazyInitDocumentation()) { return; } documentation.sourceComment = sourceComment; } public int getOriginalCommentPosition() { return originalCommentPosition; } void setOriginalCommentPosition(int position) { originalCommentPosition = position; } /** Get the value of the @modifies{this} annotation stored in the doc info. */ public boolean modifiesThis() { return (this.getModifies().contains("this")); } /** @return Whether the @modifies annotation includes "arguments" or any named parameters. */ public boolean hasSideEffectsArgumentsAnnotation() { Set modifies = this.getModifies(); // TODO(johnlenz): if we start tracking parameters individually // this should simply be a check for "arguments". return (modifies.size() > 1 || (modifies.size() == 1 && !modifies.contains("this"))); } }





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