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/* This file was generated with JastAdd2 (http://jastadd.org) version 2.3.0 */
package org.extendj.ast;
import java.util.Collection;
import java.util.Collections;
import java.util.HashSet;
import java.util.ArrayList;
import java.io.ByteArrayOutputStream;
import java.io.PrintStream;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.util.*;
import java.util.zip.*;
import java.io.*;
import org.jastadd.util.PrettyPrintable;
import org.jastadd.util.PrettyPrinter;
import org.jastadd.util.*;
import java.io.File;
import java.io.FileNotFoundException;
import java.io.InputStream;
import java.io.IOException;
import java.util.Set;
import beaver.*;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.ConcurrentMap;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ConcurrentSkipListMap;
import java.io.BufferedInputStream;
import java.io.DataInputStream;
/**
 * @ast node
 * @declaredat /home/jesper/git/extendj/java4/grammar/Java.ast:156
 * @astdecl ArrayDecl : ClassDecl;
 * @production ArrayDecl : {@link ClassDecl};

 */
public class ArrayDecl extends ClassDecl implements Cloneable {
  /**
   * @aspect Arrays
   * @declaredat /home/jesper/git/extendj/java4/frontend/Arrays.jrag:99
   */
  public Access createQualifiedAccess() {
    return new ArrayTypeAccess(componentType().createQualifiedAccess());
  }
  /**
   * @declaredat ASTNode:1
   */
  public ArrayDecl() {
    super();
  }
  /**
   * Initializes the child array to the correct size.
   * Initializes List and Opt nta children.
   * @apilevel internal
   * @ast method
   * @declaredat ASTNode:10
   */
  public void init$Children() {
    children = new ASTNode[5];
    setChild(new Opt(), 1);
    setChild(new List(), 2);
    setChild(new List(), 3);
    setChild(new Opt(), 4);
  }
  /**
   * @declaredat ASTNode:17
   */
  @ASTNodeAnnotation.Constructor(
    name = {"Modifiers", "ID", "SuperClass", "Implements", "BodyDecl"},
    type = {"Modifiers", "String", "Opt", "List", "List"},
    kind = {"Child", "Token", "Opt", "List", "List"}
  )
  public ArrayDecl(Modifiers p0, String p1, Opt p2, List p3, List p4) {
    setChild(p0, 0);
    setID(p1);
    setChild(p2, 1);
    setChild(p3, 2);
    setChild(p4, 3);
  }
  /**
   * @declaredat ASTNode:29
   */
  public ArrayDecl(Modifiers p0, beaver.Symbol p1, Opt p2, List p3, List p4) {
    setChild(p0, 0);
    setID(p1);
    setChild(p2, 1);
    setChild(p3, 2);
    setChild(p4, 3);
  }
  /** @apilevel low-level 
   * @declaredat ASTNode:37
   */
  protected int numChildren() {
    return 4;
  }
  /**
   * @apilevel internal
   * @declaredat ASTNode:43
   */
  public boolean mayHaveRewrite() {
    return false;
  }
  /** @apilevel internal 
   * @declaredat ASTNode:47
   */
  public void flushAttrCache() {
    super.flushAttrCache();
    dimension_reset();
    elementType_reset();
    fullName_reset();
    castingConversionTo_TypeDecl_reset();
    instanceOf_TypeDecl_reset();
    typeName_reset();
    accessibleFrom_TypeDecl_reset();
    erasure_reset();
    usesTypeVariable_reset();
    involvesTypeParameters_reset();
    subtype_TypeDecl_reset();
    jvmName_reset();
    verificationType_reset();
    constantPoolName_reset();
    typeDescriptor_reset();
    needsSignatureAttribute_reset();
    fieldTypeSignature_reset();
    classTypeSignature_reset();
  }
  /** @apilevel internal 
   * @declaredat ASTNode:69
   */
  public void flushCollectionCache() {
    super.flushCollectionCache();
  }
  /** @apilevel internal 
   * @declaredat ASTNode:73
   */
  public ArrayDecl clone() throws CloneNotSupportedException {
    ArrayDecl node = (ArrayDecl) super.clone();
    return node;
  }
  /** @apilevel internal 
   * @declaredat ASTNode:78
   */
  public ArrayDecl copy() {
    try {
      ArrayDecl node = (ArrayDecl) clone();
      node.parent = null;
      if (children != null) {
        node.children = (ASTNode[]) children.clone();
      }
      return node;
    } catch (CloneNotSupportedException e) {
      throw new Error("Error: clone not supported for " + getClass().getName());
    }
  }
  /**
   * Create a deep copy of the AST subtree at this node.
   * The copy is dangling, i.e. has no parent.
   * @return dangling copy of the subtree at this node
   * @apilevel low-level
   * @deprecated Please use treeCopy or treeCopyNoTransform instead
   * @declaredat ASTNode:97
   */
  @Deprecated
  public ArrayDecl fullCopy() {
    return treeCopyNoTransform();
  }
  /**
   * Create a deep copy of the AST subtree at this node.
   * The copy is dangling, i.e. has no parent.
   * @return dangling copy of the subtree at this node
   * @apilevel low-level
   * @declaredat ASTNode:107
   */
  public ArrayDecl treeCopyNoTransform() {
    ArrayDecl tree = (ArrayDecl) copy();
    if (children != null) {
      for (int i = 0; i < children.length; ++i) {
        switch (i) {
        case 4:
          tree.children[i] = new Opt();
          continue;
        }
        ASTNode child = (ASTNode) children[i];
        if (child != null) {
          child = child.treeCopyNoTransform();
          tree.setChild(child, i);
        }
      }
    }
    return tree;
  }
  /**
   * Create a deep copy of the AST subtree at this node.
   * The subtree of this node is traversed to trigger rewrites before copy.
   * The copy is dangling, i.e. has no parent.
   * @return dangling copy of the subtree at this node
   * @apilevel low-level
   * @declaredat ASTNode:132
   */
  public ArrayDecl treeCopy() {
    ArrayDecl tree = (ArrayDecl) copy();
    if (children != null) {
      for (int i = 0; i < children.length; ++i) {
        switch (i) {
        case 4:
          tree.children[i] = new Opt();
          continue;
        }
        ASTNode child = (ASTNode) getChild(i);
        if (child != null) {
          child = child.treeCopy();
          tree.setChild(child, i);
        }
      }
    }
    return tree;
  }
  /** @apilevel internal 
   * @declaredat ASTNode:151
   */
  protected boolean is$Equal(ASTNode node) {
    return super.is$Equal(node) && (tokenString_ID == ((ArrayDecl) node).tokenString_ID);    
  }
  /**
   * Replaces the Modifiers child.
   * @param node The new node to replace the Modifiers child.
   * @apilevel high-level
   */
  public void setModifiers(Modifiers node) {
    setChild(node, 0);
  }
  /**
   * Retrieves the Modifiers child.
   * @return The current node used as the Modifiers child.
   * @apilevel high-level
   */
  @ASTNodeAnnotation.Child(name="Modifiers")
  public Modifiers getModifiers() {
    return (Modifiers) getChild(0);
  }
  /**
   * Retrieves the Modifiers child.
   * 

This method does not invoke AST transformations.

* @return The current node used as the Modifiers child. * @apilevel low-level */ public Modifiers getModifiersNoTransform() { return (Modifiers) getChildNoTransform(0); } /** * Replaces the lexeme ID. * @param value The new value for the lexeme ID. * @apilevel high-level */ public void setID(String value) { tokenString_ID = value; } /** * JastAdd-internal setter for lexeme ID using the Beaver parser. * @param symbol Symbol containing the new value for the lexeme ID * @apilevel internal */ public void setID(beaver.Symbol symbol) { if (symbol.value != null && !(symbol.value instanceof String)) throw new UnsupportedOperationException("setID is only valid for String lexemes"); tokenString_ID = (String)symbol.value; IDstart = symbol.getStart(); IDend = symbol.getEnd(); } /** * Retrieves the value for the lexeme ID. * @return The value for the lexeme ID. * @apilevel high-level */ @ASTNodeAnnotation.Token(name="ID") public String getID() { return tokenString_ID != null ? tokenString_ID : ""; } /** * Replaces the optional node for the SuperClass child. This is the Opt * node containing the child SuperClass, not the actual child! * @param opt The new node to be used as the optional node for the SuperClass child. * @apilevel low-level */ public void setSuperClassOpt(Opt opt) { setChild(opt, 1); } /** * Replaces the (optional) SuperClass child. * @param node The new node to be used as the SuperClass child. * @apilevel high-level */ public void setSuperClass(Access node) { getSuperClassOpt().setChild(node, 0); } /** * Check whether the optional SuperClass child exists. * @return {@code true} if the optional SuperClass child exists, {@code false} if it does not. * @apilevel high-level */ public boolean hasSuperClass() { return getSuperClassOpt().getNumChild() != 0; } /** * Retrieves the (optional) SuperClass child. * @return The SuperClass child, if it exists. Returns {@code null} otherwise. * @apilevel low-level */ public Access getSuperClass() { return (Access) getSuperClassOpt().getChild(0); } /** * Retrieves the optional node for the SuperClass child. This is the Opt node containing the child SuperClass, not the actual child! * @return The optional node for child the SuperClass child. * @apilevel low-level */ @ASTNodeAnnotation.OptChild(name="SuperClass") public Opt getSuperClassOpt() { return (Opt) getChild(1); } /** * Retrieves the optional node for child SuperClass. This is the Opt node containing the child SuperClass, not the actual child! *

This method does not invoke AST transformations.

* @return The optional node for child SuperClass. * @apilevel low-level */ public Opt getSuperClassOptNoTransform() { return (Opt) getChildNoTransform(1); } /** * Replaces the Implements list. * @param list The new list node to be used as the Implements list. * @apilevel high-level */ public void setImplementsList(List list) { setChild(list, 2); } /** * Retrieves the number of children in the Implements list. * @return Number of children in the Implements list. * @apilevel high-level */ public int getNumImplements() { return getImplementsList().getNumChild(); } /** * Retrieves the number of children in the Implements list. * Calling this method will not trigger rewrites. * @return Number of children in the Implements list. * @apilevel low-level */ public int getNumImplementsNoTransform() { return getImplementsListNoTransform().getNumChildNoTransform(); } /** * Retrieves the element at index {@code i} in the Implements list. * @param i Index of the element to return. * @return The element at position {@code i} in the Implements list. * @apilevel high-level */ public Access getImplements(int i) { return (Access) getImplementsList().getChild(i); } /** * Check whether the Implements list has any children. * @return {@code true} if it has at least one child, {@code false} otherwise. * @apilevel high-level */ public boolean hasImplements() { return getImplementsList().getNumChild() != 0; } /** * Append an element to the Implements list. * @param node The element to append to the Implements list. * @apilevel high-level */ public void addImplements(Access node) { List list = (parent == null) ? getImplementsListNoTransform() : getImplementsList(); list.addChild(node); } /** @apilevel low-level */ public void addImplementsNoTransform(Access node) { List list = getImplementsListNoTransform(); list.addChild(node); } /** * Replaces the Implements list element at index {@code i} with the new node {@code node}. * @param node The new node to replace the old list element. * @param i The list index of the node to be replaced. * @apilevel high-level */ public void setImplements(Access node, int i) { List list = getImplementsList(); list.setChild(node, i); } /** * Retrieves the Implements list. * @return The node representing the Implements list. * @apilevel high-level */ @ASTNodeAnnotation.ListChild(name="Implements") public List getImplementsList() { List list = (List) getChild(2); return list; } /** * Retrieves the Implements list. *

This method does not invoke AST transformations.

* @return The node representing the Implements list. * @apilevel low-level */ public List getImplementsListNoTransform() { return (List) getChildNoTransform(2); } /** * @return the element at index {@code i} in the Implements list without * triggering rewrites. */ public Access getImplementsNoTransform(int i) { return (Access) getImplementsListNoTransform().getChildNoTransform(i); } /** * Retrieves the Implements list. * @return The node representing the Implements list. * @apilevel high-level */ public List getImplementss() { return getImplementsList(); } /** * Retrieves the Implements list. *

This method does not invoke AST transformations.

* @return The node representing the Implements list. * @apilevel low-level */ public List getImplementssNoTransform() { return getImplementsListNoTransform(); } /** * Replaces the BodyDecl list. * @param list The new list node to be used as the BodyDecl list. * @apilevel high-level */ public void setBodyDeclList(List list) { setChild(list, 3); } /** * Retrieves the number of children in the BodyDecl list. * @return Number of children in the BodyDecl list. * @apilevel high-level */ public int getNumBodyDecl() { return getBodyDeclList().getNumChild(); } /** * Retrieves the number of children in the BodyDecl list. * Calling this method will not trigger rewrites. * @return Number of children in the BodyDecl list. * @apilevel low-level */ public int getNumBodyDeclNoTransform() { return getBodyDeclListNoTransform().getNumChildNoTransform(); } /** * Retrieves the element at index {@code i} in the BodyDecl list. * @param i Index of the element to return. * @return The element at position {@code i} in the BodyDecl list. * @apilevel high-level */ public BodyDecl getBodyDecl(int i) { return (BodyDecl) getBodyDeclList().getChild(i); } /** * Check whether the BodyDecl list has any children. * @return {@code true} if it has at least one child, {@code false} otherwise. * @apilevel high-level */ public boolean hasBodyDecl() { return getBodyDeclList().getNumChild() != 0; } /** * Append an element to the BodyDecl list. * @param node The element to append to the BodyDecl list. * @apilevel high-level */ public void addBodyDecl(BodyDecl node) { List list = (parent == null) ? getBodyDeclListNoTransform() : getBodyDeclList(); list.addChild(node); } /** @apilevel low-level */ public void addBodyDeclNoTransform(BodyDecl node) { List list = getBodyDeclListNoTransform(); list.addChild(node); } /** * Replaces the BodyDecl list element at index {@code i} with the new node {@code node}. * @param node The new node to replace the old list element. * @param i The list index of the node to be replaced. * @apilevel high-level */ public void setBodyDecl(BodyDecl node, int i) { List list = getBodyDeclList(); list.setChild(node, i); } /** * Retrieves the BodyDecl list. * @return The node representing the BodyDecl list. * @apilevel high-level */ @ASTNodeAnnotation.ListChild(name="BodyDecl") public List getBodyDeclList() { List list = (List) getChild(3); return list; } /** * Retrieves the BodyDecl list. *

This method does not invoke AST transformations.

* @return The node representing the BodyDecl list. * @apilevel low-level */ public List getBodyDeclListNoTransform() { return (List) getChildNoTransform(3); } /** * @return the element at index {@code i} in the BodyDecl list without * triggering rewrites. */ public BodyDecl getBodyDeclNoTransform(int i) { return (BodyDecl) getBodyDeclListNoTransform().getChildNoTransform(i); } /** * Retrieves the BodyDecl list. * @return The node representing the BodyDecl list. * @apilevel high-level */ public List getBodyDecls() { return getBodyDeclList(); } /** * Retrieves the BodyDecl list. *

This method does not invoke AST transformations.

* @return The node representing the BodyDecl list. * @apilevel low-level */ public List getBodyDeclsNoTransform() { return getBodyDeclListNoTransform(); } /** * Replaces the (optional) ImplicitConstructor child. * @param node The new node to be used as the ImplicitConstructor child. * @apilevel high-level */ public void setImplicitConstructor(ConstructorDecl node) { getImplicitConstructorOpt().setChild(node, 0); } /** * Check whether the optional ImplicitConstructor child exists. * @return {@code true} if the optional ImplicitConstructor child exists, {@code false} if it does not. * @apilevel high-level */ public boolean hasImplicitConstructor() { return getImplicitConstructorOpt().getNumChild() != 0; } /** * Retrieves the (optional) ImplicitConstructor child. * @return The ImplicitConstructor child, if it exists. Returns {@code null} otherwise. * @apilevel low-level */ public ConstructorDecl getImplicitConstructor() { return (ConstructorDecl) getImplicitConstructorOpt().getChild(0); } /** * Retrieves the optional node for child ImplicitConstructor. This is the Opt node containing the child ImplicitConstructor, not the actual child! *

This method does not invoke AST transformations.

* @return The optional node for child ImplicitConstructor. * @apilevel low-level */ public Opt getImplicitConstructorOptNoTransform() { return (Opt) getChildNoTransform(4); } /** * Retrieves the child position of the optional child ImplicitConstructor. * @return The the child position of the optional child ImplicitConstructor. * @apilevel low-level */ protected int getImplicitConstructorOptChildPosition() { return 4; } /** * @aspect TypeConversion * @declaredat /home/jesper/git/extendj/java4/frontend/TypeAnalysis.jrag:133 */ private boolean refined_TypeConversion_ArrayDecl_castingConversionTo_TypeDecl(TypeDecl type) { if (type.isArrayDecl()) { TypeDecl SC = componentType(); TypeDecl TC = type.componentType(); if (SC.isPrimitiveType() && TC.isPrimitiveType() && SC == TC) { return true; } if (SC.isReferenceType() && TC.isReferenceType()) { return SC.castingConversionTo(TC); } return false; } else if (type.isClassDecl()) { return type.isObject(); } else if (type.isInterfaceDecl()) { return type == typeSerializable() || type == typeCloneable(); } else return super.castingConversionTo(type); } /** @apilevel internal */ private void dimension_reset() { dimension_computed = null; } /** @apilevel internal */ protected ASTState.Cycle dimension_computed = null; /** @apilevel internal */ protected int dimension_value; /** * Dimension of this type, if it is an array type. * @return 0 for non-array types, and the array dimension for an array type. * @attribute syn * @aspect Arrays * @declaredat /home/jesper/git/extendj/java4/frontend/Arrays.jrag:36 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="Arrays", declaredAt="/home/jesper/git/extendj/java4/frontend/Arrays.jrag:36") public int dimension() { ASTState state = state(); if (dimension_computed == ASTState.NON_CYCLE || dimension_computed == state().cycle()) { return dimension_value; } dimension_value = componentType().dimension() + 1; if (state().inCircle()) { dimension_computed = state().cycle(); } else { dimension_computed = ASTState.NON_CYCLE; } return dimension_value; } /** @apilevel internal */ private void elementType_reset() { elementType_computed = null; elementType_value = null; } /** @apilevel internal */ protected ASTState.Cycle elementType_computed = null; /** @apilevel internal */ protected TypeDecl elementType_value; /** * @return the base type that the array is based on. For example, returns int * for an int[][] array type. * @attribute syn * @aspect Arrays * @declaredat /home/jesper/git/extendj/java4/frontend/Arrays.jrag:44 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="Arrays", declaredAt="/home/jesper/git/extendj/java4/frontend/Arrays.jrag:44") public TypeDecl elementType() { ASTState state = state(); if (elementType_computed == ASTState.NON_CYCLE || elementType_computed == state().cycle()) { return elementType_value; } elementType_value = componentType().elementType(); if (state().inCircle()) { elementType_computed = state().cycle(); } else { elementType_computed = ASTState.NON_CYCLE; } return elementType_value; } /** * @attribute syn * @aspect TypeName * @declaredat /home/jesper/git/extendj/java4/frontend/QualifiedNames.jrag:82 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="TypeName", declaredAt="/home/jesper/git/extendj/java4/frontend/QualifiedNames.jrag:82") public String name() { String name_value = fullName(); return name_value; } /** @apilevel internal */ private void fullName_reset() { fullName_computed = null; fullName_value = null; } /** @apilevel internal */ protected ASTState.Cycle fullName_computed = null; /** @apilevel internal */ protected String fullName_value; /** * @attribute syn * @aspect TypeName * @declaredat /home/jesper/git/extendj/java4/frontend/QualifiedNames.jrag:84 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="TypeName", declaredAt="/home/jesper/git/extendj/java4/frontend/QualifiedNames.jrag:84") public String fullName() { ASTState state = state(); if (fullName_computed == ASTState.NON_CYCLE || fullName_computed == state().cycle()) { return fullName_value; } fullName_value = getID(); if (state().inCircle()) { fullName_computed = state().cycle(); } else { fullName_computed = ASTState.NON_CYCLE; } return fullName_value; } /** @apilevel internal */ private void castingConversionTo_TypeDecl_reset() { castingConversionTo_TypeDecl_computed = null; castingConversionTo_TypeDecl_values = null; } /** @apilevel internal */ protected java.util.Map castingConversionTo_TypeDecl_values; /** @apilevel internal */ protected java.util.Map castingConversionTo_TypeDecl_computed; /** * @attribute syn * @aspect TypeConversion * @declaredat /home/jesper/git/extendj/java4/frontend/TypeAnalysis.jrag:100 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="TypeConversion", declaredAt="/home/jesper/git/extendj/java4/frontend/TypeAnalysis.jrag:100") public boolean castingConversionTo(TypeDecl type) { Object _parameters = type; if (castingConversionTo_TypeDecl_computed == null) castingConversionTo_TypeDecl_computed = new java.util.HashMap(4); if (castingConversionTo_TypeDecl_values == null) castingConversionTo_TypeDecl_values = new java.util.HashMap(4); ASTState state = state(); if (castingConversionTo_TypeDecl_values.containsKey(_parameters) && castingConversionTo_TypeDecl_computed.containsKey(_parameters) && (castingConversionTo_TypeDecl_computed.get(_parameters) == ASTState.NON_CYCLE || castingConversionTo_TypeDecl_computed.get(_parameters) == state().cycle())) { return (Boolean) castingConversionTo_TypeDecl_values.get(_parameters); } boolean castingConversionTo_TypeDecl_value = castingConversionTo_compute(type); if (state().inCircle()) { castingConversionTo_TypeDecl_values.put(_parameters, castingConversionTo_TypeDecl_value); castingConversionTo_TypeDecl_computed.put(_parameters, state().cycle()); } else { castingConversionTo_TypeDecl_values.put(_parameters, castingConversionTo_TypeDecl_value); castingConversionTo_TypeDecl_computed.put(_parameters, ASTState.NON_CYCLE); } return castingConversionTo_TypeDecl_value; } /** @apilevel internal */ private boolean castingConversionTo_compute(TypeDecl type) { TypeDecl S = this; TypeDecl T = type; if (T instanceof TypeVariable) { TypeVariable t = (TypeVariable) T; if (!type.isReferenceType()) { return false; } if (t.getNumTypeBound() == 0) { return true; } for (int i = 0; i < t.getNumTypeBound(); i++) { TypeDecl bound = t.getTypeBound(i).type(); if (bound.isObject() || bound == typeSerializable() || bound == typeCloneable()) { return true; } if (bound.isTypeVariable() && castingConversionTo(bound)) { return true; } if (bound.isArrayDecl() && castingConversionTo(bound)) { return true; } } return false; } else { return refined_TypeConversion_ArrayDecl_castingConversionTo_TypeDecl(type); } } /** * @attribute syn * @aspect TypeAnalysis * @declaredat /home/jesper/git/extendj/java4/frontend/TypeAnalysis.jrag:223 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="TypeAnalysis", declaredAt="/home/jesper/git/extendj/java4/frontend/TypeAnalysis.jrag:223") public boolean isClassDecl() { boolean isClassDecl_value = false; return isClassDecl_value; } /** * @attribute syn * @aspect TypeAnalysis * @declaredat /home/jesper/git/extendj/java4/frontend/TypeAnalysis.jrag:229 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="TypeAnalysis", declaredAt="/home/jesper/git/extendj/java4/frontend/TypeAnalysis.jrag:229") public boolean isArrayDecl() { boolean isArrayDecl_value = true; return isArrayDecl_value; } /** @apilevel internal */ private void instanceOf_TypeDecl_reset() { instanceOf_TypeDecl_computed = null; instanceOf_TypeDecl_values = null; } /** @apilevel internal */ protected java.util.Map instanceOf_TypeDecl_values; /** @apilevel internal */ protected java.util.Map instanceOf_TypeDecl_computed; /** * @attribute syn * @aspect TypeWideningAndIdentity * @declaredat /home/jesper/git/extendj/java4/frontend/TypeAnalysis.jrag:443 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="TypeWideningAndIdentity", declaredAt="/home/jesper/git/extendj/java4/frontend/TypeAnalysis.jrag:443") public boolean instanceOf(TypeDecl type) { Object _parameters = type; if (instanceOf_TypeDecl_computed == null) instanceOf_TypeDecl_computed = new java.util.HashMap(4); if (instanceOf_TypeDecl_values == null) instanceOf_TypeDecl_values = new java.util.HashMap(4); ASTState state = state(); if (instanceOf_TypeDecl_values.containsKey(_parameters) && instanceOf_TypeDecl_computed.containsKey(_parameters) && (instanceOf_TypeDecl_computed.get(_parameters) == ASTState.NON_CYCLE || instanceOf_TypeDecl_computed.get(_parameters) == state().cycle())) { return (Boolean) instanceOf_TypeDecl_values.get(_parameters); } boolean instanceOf_TypeDecl_value = instanceOf_compute(type); if (state().inCircle()) { instanceOf_TypeDecl_values.put(_parameters, instanceOf_TypeDecl_value); instanceOf_TypeDecl_computed.put(_parameters, state().cycle()); } else { instanceOf_TypeDecl_values.put(_parameters, instanceOf_TypeDecl_value); instanceOf_TypeDecl_computed.put(_parameters, ASTState.NON_CYCLE); } return instanceOf_TypeDecl_value; } /** @apilevel internal */ private boolean instanceOf_compute(TypeDecl type) { return subtype(type); } /** * @attribute syn * @aspect TypeWideningAndIdentity * @declaredat /home/jesper/git/extendj/java4/frontend/TypeAnalysis.jrag:494 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="TypeWideningAndIdentity", declaredAt="/home/jesper/git/extendj/java4/frontend/TypeAnalysis.jrag:494") public boolean isSupertypeOfArrayDecl(ArrayDecl type) { { if (type.elementType().isPrimitive() && elementType().isPrimitive()) { return type.dimension() == dimension() && type.elementType() == elementType(); } return type.componentType().instanceOf(componentType()); } } /** @apilevel internal */ private void typeName_reset() { typeName_computed = null; typeName_value = null; } /** @apilevel internal */ protected ASTState.Cycle typeName_computed = null; /** @apilevel internal */ protected String typeName_value; /** * The qualified typename of this type. * *

Includes array suffix and type arguments. * @attribute syn * @aspect TypeName * @declaredat /home/jesper/git/extendj/java4/frontend/QualifiedNames.jrag:100 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="TypeName", declaredAt="/home/jesper/git/extendj/java4/frontend/QualifiedNames.jrag:100") public String typeName() { ASTState state = state(); if (typeName_computed == ASTState.NON_CYCLE || typeName_computed == state().cycle()) { return typeName_value; } typeName_value = componentType().typeName() + "[]"; if (state().inCircle()) { typeName_computed = state().cycle(); } else { typeName_computed = ASTState.NON_CYCLE; } return typeName_value; } /** @apilevel internal */ private void accessibleFrom_TypeDecl_reset() { accessibleFrom_TypeDecl_computed = null; accessibleFrom_TypeDecl_values = null; } /** @apilevel internal */ protected java.util.Map accessibleFrom_TypeDecl_values; /** @apilevel internal */ protected java.util.Map accessibleFrom_TypeDecl_computed; /** * @attribute syn * @aspect AccessControl * @declaredat /home/jesper/git/extendj/java4/frontend/AccessControl.jrag:37 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="AccessControl", declaredAt="/home/jesper/git/extendj/java4/frontend/AccessControl.jrag:37") public boolean accessibleFrom(TypeDecl type) { Object _parameters = type; if (accessibleFrom_TypeDecl_computed == null) accessibleFrom_TypeDecl_computed = new java.util.HashMap(4); if (accessibleFrom_TypeDecl_values == null) accessibleFrom_TypeDecl_values = new java.util.HashMap(4); ASTState state = state(); if (accessibleFrom_TypeDecl_values.containsKey(_parameters) && accessibleFrom_TypeDecl_computed.containsKey(_parameters) && (accessibleFrom_TypeDecl_computed.get(_parameters) == ASTState.NON_CYCLE || accessibleFrom_TypeDecl_computed.get(_parameters) == state().cycle())) { return (Boolean) accessibleFrom_TypeDecl_values.get(_parameters); } boolean accessibleFrom_TypeDecl_value = elementType().accessibleFrom(type); if (state().inCircle()) { accessibleFrom_TypeDecl_values.put(_parameters, accessibleFrom_TypeDecl_value); accessibleFrom_TypeDecl_computed.put(_parameters, state().cycle()); } else { accessibleFrom_TypeDecl_values.put(_parameters, accessibleFrom_TypeDecl_value); accessibleFrom_TypeDecl_computed.put(_parameters, ASTState.NON_CYCLE); } return accessibleFrom_TypeDecl_value; } /** * A type is reifiable if it either refers to a non-parameterized type, * is a raw type, is a parameterized type with only unbound wildcard * parameters or is an array type with a reifiable type parameter. * * @see "JLS SE7 §4.7" * @attribute syn * @aspect ReifiableTypes * @declaredat /home/jesper/git/extendj/java5/frontend/ReifiableTypes.jrag:39 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="ReifiableTypes", declaredAt="/home/jesper/git/extendj/java5/frontend/ReifiableTypes.jrag:39") public boolean isReifiable() { boolean isReifiable_value = componentType().isReifiable(); return isReifiable_value; } /** * @attribute syn * @aspect Annotations * @declaredat /home/jesper/git/extendj/java5/frontend/Annotations.jrag:199 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="Annotations", declaredAt="/home/jesper/git/extendj/java5/frontend/Annotations.jrag:199") public boolean isValidAnnotationMethodReturnType() { boolean isValidAnnotationMethodReturnType_value = !componentType().isArrayDecl() && componentType().isValidAnnotationMethodReturnType(); return isValidAnnotationMethodReturnType_value; } /** * @attribute syn * @aspect Annotations * @declaredat /home/jesper/git/extendj/java5/frontend/Annotations.jrag:666 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="Annotations", declaredAt="/home/jesper/git/extendj/java5/frontend/Annotations.jrag:666") public boolean commensurateWith(ElementValue value) { boolean commensurateWith_ElementValue_value = value.commensurateWithArrayDecl(this); return commensurateWith_ElementValue_value; } /** @apilevel internal */ private void erasure_reset() { erasure_computed = null; erasure_value = null; } /** @apilevel internal */ protected ASTState.Cycle erasure_computed = null; /** @apilevel internal */ protected TypeDecl erasure_value; /** * @attribute syn * @aspect GenericsErasure * @declaredat /home/jesper/git/extendj/java5/frontend/Generics.jrag:460 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="GenericsErasure", declaredAt="/home/jesper/git/extendj/java5/frontend/Generics.jrag:460") public TypeDecl erasure() { ASTState state = state(); if (erasure_computed == ASTState.NON_CYCLE || erasure_computed == state().cycle()) { return erasure_value; } erasure_value = componentType().erasure().arrayType(); if (state().inCircle()) { erasure_computed = state().cycle(); } else { erasure_computed = ASTState.NON_CYCLE; } return erasure_value; } /** @apilevel internal */ protected ASTState.Cycle usesTypeVariable_cycle = null; /** @apilevel internal */ private void usesTypeVariable_reset() { usesTypeVariable_computed = false; usesTypeVariable_initialized = false; usesTypeVariable_cycle = null; } /** @apilevel internal */ protected boolean usesTypeVariable_computed = false; /** @apilevel internal */ protected boolean usesTypeVariable_value; /** @apilevel internal */ protected boolean usesTypeVariable_initialized = false; @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN, isCircular=true) @ASTNodeAnnotation.Source(aspect="LookupParTypeDecl", declaredAt="/home/jesper/git/extendj/java5/frontend/Generics.jrag:1325") public boolean usesTypeVariable() { if (usesTypeVariable_computed) { return usesTypeVariable_value; } ASTState state = state(); if (!usesTypeVariable_initialized) { usesTypeVariable_initialized = true; usesTypeVariable_value = false; } if (!state.inCircle() || state.calledByLazyAttribute()) { state.enterCircle(); do { usesTypeVariable_cycle = state.nextCycle(); boolean new_usesTypeVariable_value = elementType().usesTypeVariable(); if (usesTypeVariable_value != new_usesTypeVariable_value) { state.setChangeInCycle(); } usesTypeVariable_value = new_usesTypeVariable_value; } while (state.testAndClearChangeInCycle()); usesTypeVariable_computed = true; state.leaveCircle(); } else if (usesTypeVariable_cycle != state.cycle()) { usesTypeVariable_cycle = state.cycle(); boolean new_usesTypeVariable_value = elementType().usesTypeVariable(); if (usesTypeVariable_value != new_usesTypeVariable_value) { state.setChangeInCycle(); } usesTypeVariable_value = new_usesTypeVariable_value; } else { } return usesTypeVariable_value; } /** @apilevel internal */ protected ASTState.Cycle involvesTypeParameters_cycle = null; /** @apilevel internal */ private void involvesTypeParameters_reset() { involvesTypeParameters_computed = false; involvesTypeParameters_initialized = false; involvesTypeParameters_cycle = null; } /** @apilevel internal */ protected boolean involvesTypeParameters_computed = false; /** @apilevel internal */ protected boolean involvesTypeParameters_value; /** @apilevel internal */ protected boolean involvesTypeParameters_initialized = false; @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN, isCircular=true) @ASTNodeAnnotation.Source(aspect="GenericMethodsInference", declaredAt="/home/jesper/git/extendj/java5/frontend/GenericMethodsInference.jrag:37") public boolean involvesTypeParameters() { if (involvesTypeParameters_computed) { return involvesTypeParameters_value; } ASTState state = state(); if (!involvesTypeParameters_initialized) { involvesTypeParameters_initialized = true; involvesTypeParameters_value = false; } if (!state.inCircle() || state.calledByLazyAttribute()) { state.enterCircle(); do { involvesTypeParameters_cycle = state.nextCycle(); boolean new_involvesTypeParameters_value = componentType().involvesTypeParameters(); if (involvesTypeParameters_value != new_involvesTypeParameters_value) { state.setChangeInCycle(); } involvesTypeParameters_value = new_involvesTypeParameters_value; } while (state.testAndClearChangeInCycle()); involvesTypeParameters_computed = true; state.leaveCircle(); } else if (involvesTypeParameters_cycle != state.cycle()) { involvesTypeParameters_cycle = state.cycle(); boolean new_involvesTypeParameters_value = componentType().involvesTypeParameters(); if (involvesTypeParameters_value != new_involvesTypeParameters_value) { state.setChangeInCycle(); } involvesTypeParameters_value = new_involvesTypeParameters_value; } else { } return involvesTypeParameters_value; } /** @apilevel internal */ private void subtype_TypeDecl_reset() { subtype_TypeDecl_values = null; } protected java.util.Map subtype_TypeDecl_values; @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN, isCircular=true) @ASTNodeAnnotation.Source(aspect="GenericsSubtype", declaredAt="/home/jesper/git/extendj/java5/frontend/GenericsSubtype.jrag:492") public boolean subtype(TypeDecl type) { Object _parameters = type; if (subtype_TypeDecl_values == null) subtype_TypeDecl_values = new java.util.HashMap(4); ASTState.CircularValue _value; if (subtype_TypeDecl_values.containsKey(_parameters)) { Object _cache = subtype_TypeDecl_values.get(_parameters); if (!(_cache instanceof ASTState.CircularValue)) { return (Boolean) _cache; } else { _value = (ASTState.CircularValue) _cache; } } else { _value = new ASTState.CircularValue(); subtype_TypeDecl_values.put(_parameters, _value); _value.value = true; } ASTState state = state(); if (!state.inCircle() || state.calledByLazyAttribute()) { state.enterCircle(); boolean new_subtype_TypeDecl_value; do { _value.cycle = state.nextCycle(); new_subtype_TypeDecl_value = type.supertypeArrayDecl(this); if (((Boolean)_value.value) != new_subtype_TypeDecl_value) { state.setChangeInCycle(); _value.value = new_subtype_TypeDecl_value; } } while (state.testAndClearChangeInCycle()); subtype_TypeDecl_values.put(_parameters, new_subtype_TypeDecl_value); state.leaveCircle(); return new_subtype_TypeDecl_value; } else if (_value.cycle != state.cycle()) { _value.cycle = state.cycle(); boolean new_subtype_TypeDecl_value = type.supertypeArrayDecl(this); if (((Boolean)_value.value) != new_subtype_TypeDecl_value) { state.setChangeInCycle(); _value.value = new_subtype_TypeDecl_value; } return new_subtype_TypeDecl_value; } else { return (Boolean) _value.value; } } /** * @attribute syn * @aspect GenericsSubtype * @declaredat /home/jesper/git/extendj/java5/frontend/GenericsSubtype.jrag:541 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="GenericsSubtype", declaredAt="/home/jesper/git/extendj/java5/frontend/GenericsSubtype.jrag:541") public boolean supertypeArrayDecl(ArrayDecl type) { { if (type.elementType().isPrimitive() && elementType().isPrimitive()) { return type.dimension() == dimension() && type.elementType() == elementType(); } return type.componentType().subtype(componentType()); } } /** * @param bound the bounded type variable * @return {@code true} if this type is within the bounds of the parameter type * @attribute syn * @aspect GenericBoundCheck * @declaredat /home/jesper/git/extendj/java5/frontend/GenericBoundCheck.jrag:40 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="GenericBoundCheck", declaredAt="/home/jesper/git/extendj/java5/frontend/GenericBoundCheck.jrag:40") public boolean withinBounds(TypeDecl bound) { boolean withinBounds_TypeDecl_value = bound.boundOfArray(this); return withinBounds_TypeDecl_value; } /** * @attribute syn * @aspect GenericBoundCheck * @declaredat /home/jesper/git/extendj/java5/frontend/GenericBoundCheck.jrag:87 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="GenericBoundCheck", declaredAt="/home/jesper/git/extendj/java5/frontend/GenericBoundCheck.jrag:87") public boolean boundOfArray(ArrayDecl type) { boolean boundOfArray_ArrayDecl_value = type.componentType().withinBounds(componentType()); return boundOfArray_ArrayDecl_value; } /** * @attribute syn * @aspect CreateBCode * @declaredat /home/jesper/git/extendj/java4/backend/CreateBCode.jrag:995 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="CreateBCode", declaredAt="/home/jesper/git/extendj/java4/backend/CreateBCode.jrag:995") public String arrayTypeDescriptor() { String arrayTypeDescriptor_value = typeDescriptor(); return arrayTypeDescriptor_value; } /** @apilevel internal */ private void jvmName_reset() { jvmName_computed = null; jvmName_value = null; } /** @apilevel internal */ protected ASTState.Cycle jvmName_computed = null; /** @apilevel internal */ protected String jvmName_value; /** * @attribute syn * @aspect Java2Rewrites * @declaredat /home/jesper/git/extendj/java4/backend/Java2Rewrites.jrag:37 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="Java2Rewrites", declaredAt="/home/jesper/git/extendj/java4/backend/Java2Rewrites.jrag:37") public String jvmName() { ASTState state = state(); if (jvmName_computed == ASTState.NON_CYCLE || jvmName_computed == state().cycle()) { return jvmName_value; } jvmName_value = jvmName_compute(); if (state().inCircle()) { jvmName_computed = state().cycle(); } else { jvmName_computed = ASTState.NON_CYCLE; } return jvmName_value; } /** @apilevel internal */ private String jvmName_compute() { StringBuffer dim = new StringBuffer(); for (int i = 0; i < dimension(); i++) { dim.append("["); } if (elementType().isReferenceType()) { return dim.toString() + "L" + elementType().jvmName() + ";"; } else { return dim.toString() + elementType().jvmName(); } } /** @apilevel internal */ private void verificationType_reset() { verificationType_computed = null; verificationType_value = null; } /** @apilevel internal */ protected ASTState.Cycle verificationType_computed = null; /** @apilevel internal */ protected VerificationType verificationType_value; /** * @attribute syn * @aspect VerificationTypes * @declaredat /home/jesper/git/extendj/java4/backend/VerificationTypes.jrag:42 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="VerificationTypes", declaredAt="/home/jesper/git/extendj/java4/backend/VerificationTypes.jrag:42") public VerificationType verificationType() { ASTState state = state(); if (verificationType_computed == ASTState.NON_CYCLE || verificationType_computed == state().cycle()) { return verificationType_value; } verificationType_value = new VerificationTypes.ArrayType(this); if (state().inCircle()) { verificationType_computed = state().cycle(); } else { verificationType_computed = ASTState.NON_CYCLE; } return verificationType_value; } /** @apilevel internal */ private void constantPoolName_reset() { constantPoolName_computed = null; constantPoolName_value = null; } /** @apilevel internal */ protected ASTState.Cycle constantPoolName_computed = null; /** @apilevel internal */ protected String constantPoolName_value; /** * @attribute syn * @aspect ConstantPoolNames * @declaredat /home/jesper/git/extendj/java4/backend/ConstantPoolNames.jrag:76 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="ConstantPoolNames", declaredAt="/home/jesper/git/extendj/java4/backend/ConstantPoolNames.jrag:76") public String constantPoolName() { ASTState state = state(); if (constantPoolName_computed == ASTState.NON_CYCLE || constantPoolName_computed == state().cycle()) { return constantPoolName_value; } constantPoolName_value = typeDescriptor(); if (state().inCircle()) { constantPoolName_computed = state().cycle(); } else { constantPoolName_computed = ASTState.NON_CYCLE; } return constantPoolName_value; } /** @apilevel internal */ private void typeDescriptor_reset() { typeDescriptor_computed = null; typeDescriptor_value = null; } /** @apilevel internal */ protected ASTState.Cycle typeDescriptor_computed = null; /** @apilevel internal */ protected String typeDescriptor_value; /** * @attribute syn * @aspect ConstantPoolNames * @declaredat /home/jesper/git/extendj/java4/backend/ConstantPoolNames.jrag:78 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="ConstantPoolNames", declaredAt="/home/jesper/git/extendj/java4/backend/ConstantPoolNames.jrag:78") public String typeDescriptor() { ASTState state = state(); if (typeDescriptor_computed == ASTState.NON_CYCLE || typeDescriptor_computed == state().cycle()) { return typeDescriptor_value; } typeDescriptor_value = typeDescriptor_compute(); if (state().inCircle()) { typeDescriptor_computed = state().cycle(); } else { typeDescriptor_computed = ASTState.NON_CYCLE; } return typeDescriptor_value; } /** @apilevel internal */ private String typeDescriptor_compute() { StringBuilder dim = new StringBuilder(); for (int i = 0; i < dimension(); i++) { dim.append("["); } dim.append(elementType().typeDescriptor()); return dim.toString(); } /** @apilevel internal */ private void needsSignatureAttribute_reset() { needsSignatureAttribute_computed = null; } /** @apilevel internal */ protected ASTState.Cycle needsSignatureAttribute_computed = null; /** @apilevel internal */ protected boolean needsSignatureAttribute_value; /** * @attribute syn * @aspect GenericsCodegen * @declaredat /home/jesper/git/extendj/java5/backend/GenericsCodegen.jrag:387 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="GenericsCodegen", declaredAt="/home/jesper/git/extendj/java5/backend/GenericsCodegen.jrag:387") public boolean needsSignatureAttribute() { ASTState state = state(); if (needsSignatureAttribute_computed == ASTState.NON_CYCLE || needsSignatureAttribute_computed == state().cycle()) { return needsSignatureAttribute_value; } needsSignatureAttribute_value = elementType().needsSignatureAttribute(); if (state().inCircle()) { needsSignatureAttribute_computed = state().cycle(); } else { needsSignatureAttribute_computed = ASTState.NON_CYCLE; } return needsSignatureAttribute_value; } /** @apilevel internal */ private void fieldTypeSignature_reset() { fieldTypeSignature_computed = null; fieldTypeSignature_value = null; } /** @apilevel internal */ protected ASTState.Cycle fieldTypeSignature_computed = null; /** @apilevel internal */ protected String fieldTypeSignature_value; /** * @attribute syn * @aspect GenericsCodegen * @declaredat /home/jesper/git/extendj/java5/backend/GenericsCodegen.jrag:506 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="GenericsCodegen", declaredAt="/home/jesper/git/extendj/java5/backend/GenericsCodegen.jrag:506") public String fieldTypeSignature() { ASTState state = state(); if (fieldTypeSignature_computed == ASTState.NON_CYCLE || fieldTypeSignature_computed == state().cycle()) { return fieldTypeSignature_value; } fieldTypeSignature_value = "[" + componentType().fieldTypeSignature(); if (state().inCircle()) { fieldTypeSignature_computed = state().cycle(); } else { fieldTypeSignature_computed = ASTState.NON_CYCLE; } return fieldTypeSignature_value; } /** @apilevel internal */ private void classTypeSignature_reset() { classTypeSignature_computed = null; classTypeSignature_value = null; } /** @apilevel internal */ protected ASTState.Cycle classTypeSignature_computed = null; /** @apilevel internal */ protected String classTypeSignature_value; /** * @attribute syn * @aspect GenericsCodegen * @declaredat /home/jesper/git/extendj/java5/backend/GenericsCodegen.jrag:515 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN) @ASTNodeAnnotation.Source(aspect="GenericsCodegen", declaredAt="/home/jesper/git/extendj/java5/backend/GenericsCodegen.jrag:515") public String classTypeSignature() { ASTState state = state(); if (classTypeSignature_computed == ASTState.NON_CYCLE || classTypeSignature_computed == state().cycle()) { return classTypeSignature_value; } classTypeSignature_value = "[" + componentType().classTypeSignature(); if (state().inCircle()) { classTypeSignature_computed = state().cycle(); } else { classTypeSignature_computed = ASTState.NON_CYCLE; } return classTypeSignature_value; } /** * @attribute inh * @aspect TypeConversion * @declaredat /home/jesper/git/extendj/java4/frontend/TypeAnalysis.jrag:151 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.INH) @ASTNodeAnnotation.Source(aspect="TypeConversion", declaredAt="/home/jesper/git/extendj/java4/frontend/TypeAnalysis.jrag:151") public TypeDecl typeSerializable() { TypeDecl typeSerializable_value = getParent().Define_typeSerializable(this, null); return typeSerializable_value; } /** * @attribute inh * @aspect TypeConversion * @declaredat /home/jesper/git/extendj/java4/frontend/TypeAnalysis.jrag:152 */ @ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.INH) @ASTNodeAnnotation.Source(aspect="TypeConversion", declaredAt="/home/jesper/git/extendj/java4/frontend/TypeAnalysis.jrag:152") public TypeDecl typeCloneable() { TypeDecl typeCloneable_value = getParent().Define_typeCloneable(this, null); return typeCloneable_value; } /** @apilevel internal */ public ASTNode rewriteTo() { return super.rewriteTo(); } /** @apilevel internal */ public boolean canRewrite() { return false; } }





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