org.extendj.ast.MethodAccess Maven / Gradle / Ivy
/* This file was generated with JastAdd2 (http://jastadd.org) version 2.3.0 */
package org.extendj.ast;
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.Collection;
import java.util.Collections;
import java.util.HashSet;
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.util.LinkedHashSet;
import java.util.*;
import org.jastadd.util.PrettyPrintable;
import org.jastadd.util.PrettyPrinter;
import java.util.zip.*;
import java.io.*;
import org.jastadd.util.*;
import java.io.BufferedInputStream;
import java.io.DataInputStream;
/**
* A method invocation/call expression.
* The {@code type()} attribute computes the result type.
* @ast node
* @declaredat /home/jesper/git/extendj/java4/grammar/Java.ast:90
* @astdecl MethodAccess : Access ::= Arg:Expr*;
* @production MethodAccess : {@link Access} ::= <ID:String> Arg:{@link Expr}*;
*/
public class MethodAccess extends Access implements Cloneable {
/**
* @aspect Java4PrettyPrint
* @declaredat /home/jesper/git/extendj/java4/frontend/PrettyPrint.jadd:460
*/
public void prettyPrint(PrettyPrinter out) {
out.print(getID());
out.print("(");
out.join(getArgList(), new PrettyPrinter.Joiner() {
@Override
public void printSeparator(PrettyPrinter out) {
out.print(", ");
}
});
out.print(")");
}
/**
* @aspect PrettyPrintUtil
* @declaredat /home/jesper/git/extendj/java4/frontend/PrettyPrintUtil.jrag:105
*/
@Override public String toString() {
return name() + "()";
}
/**
* @aspect AnonymousClasses
* @declaredat /home/jesper/git/extendj/java4/frontend/AnonymousClasses.jrag:142
*/
protected void collectExceptions(Collection exceptions) {
super.collectExceptions(exceptions);
for (int i = 0; i < decl().getNumException(); i++) {
exceptions.add(decl().getException(i).type());
}
}
/**
* @aspect NodeConstructors
* @declaredat /home/jesper/git/extendj/java4/frontend/NodeConstructors.jrag:70
*/
public MethodAccess(String name, List args, int start, int end) {
this(name, args);
setStart(start);
setEnd(end);
}
/**
* @aspect ExceptionHandling
* @declaredat /home/jesper/git/extendj/java4/frontend/ExceptionHandling.jrag:335
*/
protected boolean reachedException(TypeDecl catchType) {
for (TypeDecl exceptionType : exceptionCollection()) {
if (catchType.mayCatch(exceptionType)) {
return true;
}
}
return super.reachedException(catchType);
}
/**
* Filter a set of methods, keeping only the static methods
* from the input set.
* @aspect LookupMethod
* @declaredat /home/jesper/git/extendj/java4/frontend/LookupMethod.jrag:285
*/
protected static SimpleSet keepStaticMethods(
SimpleSet methods) {
SimpleSet result = emptySet();
for (MethodDecl method : methods) {
if (method.isStatic()) {
result = result.add(method);
}
}
return result;
}
/**
* Determine if a candidate method declaration is applicable
* for this invocation.
* @aspect MethodDecl
* @declaredat /home/jesper/git/extendj/java4/frontend/LookupMethod.jrag:391
*/
public boolean applicable(MethodDecl decl) {
if (getNumArg() != decl.getNumParameter()) {
return false;
}
if (!name().equals(decl.name())) {
return false;
}
for (int i = 0; i < getNumArg(); i++) {
if (!getArg(i).type().instanceOf(decl.paramType(i))) {
return false;
}
}
return true;
}
/**
* @aspect MethodSignature15
* @declaredat /home/jesper/git/extendj/java5/frontend/MethodSignature.jrag:65
*/
protected SimpleSet potentiallyApplicable(
Iterable candidates) {
SimpleSet potentiallyApplicable = emptySet();
// Select potentially applicable methods.
for (MethodDecl method : candidates) {
if (potentiallyApplicable(method) && accessible(method)) {
if (method.isGeneric()) {
GenericMethodDecl gm = method.genericDecl();
Collection typeArguments = inferTypeArguments(
method.type(),
method.getParameterList(),
getArgList(),
gm.getTypeParameterList());
method = gm.lookupParMethodDecl(typeArguments);
}
potentiallyApplicable = potentiallyApplicable.add(method);
}
}
return potentiallyApplicable;
}
/**
* @aspect MethodSignature15
* @declaredat /home/jesper/git/extendj/java5/frontend/MethodSignature.jrag:175
*/
private static SimpleSet mostSpecific(
SimpleSet maxSpecific, MethodDecl decl) {
if (maxSpecific.isEmpty()) {
maxSpecific = maxSpecific.add(decl);
} else {
MethodDecl other = maxSpecific.iterator().next();
if (decl.moreSpecificThan(other)) {
maxSpecific = decl;
} else if (!other.moreSpecificThan(decl)) {
maxSpecific = maxSpecific.add(decl);
}
}
return maxSpecific;
}
/**
* Prints diagnostic error messages for debugging method binding errors.
* @aspect CreateBCode
* @declaredat /home/jesper/git/extendj/java4/backend/CreateBCode.jrag:667
*/
public void printDiagnosticMessages() {
if (decl().type().isUnknown()) {
System.err.format("Could not bind %s()%n", name());
for (Expr arg : getArgList()) {
System.err.format("Argument %d is of type %s%n",
arg,
arg.type().typeName());
if (arg.varDecl() != null) {
System.err.format("%s in %s%n",
arg.varDecl().name(),
arg.varDecl().hostType().typeName());
}
}
if (isQualified()) {
System.err.format("Qualifier %s is of type %s%n",
qualifier().prettyPrint(),
qualifier().type().typeName());
}
throw new Error(String.format("Could not bind %s()", name()));
}
if (decl().getNumParameter() != getNumArg()) {
System.out.format("%s() does not have the same number of arguments as %s()%n",
name(), decl().name());
}
}
/**
* @aspect CreateBCode
* @declaredat /home/jesper/git/extendj/java4/backend/CreateBCode.jrag:719
*/
protected void createLoadQualifier(CodeGeneration gen) {
MethodDecl m = decl();
if (hasPrevExpr()) {
// Load explicit qualifier
prevExpr().createBCode(gen);
// Pop qualifier stack element for class variables.
// This qualifier must be computed to ensure side effects are evaluated.
if (m.isStatic() && !prevExpr().isTypeAccess()) {
gen.POP(prevExpr().type());
} else {
prevExpr().emitCastTo(gen, methodQualifierType());
}
} else if (!m.isStatic()) {
// Load implicit this qualifier.
emitThis(gen, methodQualifierType());
}
}
/**
* @aspect InnerClasses
* @declaredat /home/jesper/git/extendj/java4/backend/InnerClasses.jrag:280
*/
private boolean isSuperAccessor = false;
/**
* Flags this method access as a call that should be done with invokespecial.
* @aspect InnerClasses
* @declaredat /home/jesper/git/extendj/java4/backend/InnerClasses.jrag:285
*/
protected MethodAccess setSuperAccessor() {
isSuperAccessor = true;
return this;
}
/**
* @declaredat ASTNode:1
*/
public MethodAccess() {
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[1];
setChild(new List(), 0);
}
/**
* @declaredat ASTNode:14
*/
@ASTNodeAnnotation.Constructor(
name = {"ID", "Arg"},
type = {"String", "List"},
kind = {"Token", "List"}
)
public MethodAccess(String p0, List p1) {
setID(p0);
setChild(p1, 0);
}
/**
* @declaredat ASTNode:23
*/
public MethodAccess(beaver.Symbol p0, List p1) {
setID(p0);
setChild(p1, 0);
}
/** @apilevel low-level
* @declaredat ASTNode:28
*/
protected int numChildren() {
return 1;
}
/**
* @apilevel internal
* @declaredat ASTNode:34
*/
public boolean mayHaveRewrite() {
return false;
}
/** @apilevel internal
* @declaredat ASTNode:38
*/
public void flushAttrCache() {
super.flushAttrCache();
type_reset();
computeDAbefore_int_Variable_reset();
computeDUbefore_int_Variable_reset();
unassignedAfter_Variable_reset();
unassignedAfterTrue_Variable_reset();
unassignedAfterFalse_Variable_reset();
exceptionCollection_reset();
decls_reset();
decl_reset();
transformed_reset();
transformedQualified_reset();
transformedVariableArity_reset();
}
/** @apilevel internal
* @declaredat ASTNode:54
*/
public void flushCollectionCache() {
super.flushCollectionCache();
}
/** @apilevel internal
* @declaredat ASTNode:58
*/
public MethodAccess clone() throws CloneNotSupportedException {
MethodAccess node = (MethodAccess) super.clone();
return node;
}
/** @apilevel internal
* @declaredat ASTNode:63
*/
public MethodAccess copy() {
try {
MethodAccess node = (MethodAccess) 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:82
*/
@Deprecated
public MethodAccess 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:92
*/
public MethodAccess treeCopyNoTransform() {
MethodAccess tree = (MethodAccess) copy();
if (children != null) {
for (int i = 0; i < children.length; ++i) {
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:112
*/
public MethodAccess treeCopy() {
MethodAccess tree = (MethodAccess) copy();
if (children != null) {
for (int i = 0; i < children.length; ++i) {
ASTNode child = (ASTNode) getChild(i);
if (child != null) {
child = child.treeCopy();
tree.setChild(child, i);
}
}
}
return tree;
}
/** @apilevel internal
* @declaredat ASTNode:126
*/
protected boolean is$Equal(ASTNode node) {
return super.is$Equal(node) && (tokenString_ID == ((MethodAccess) node).tokenString_ID);
}
/**
* Replaces the lexeme ID.
* @param value The new value for the lexeme ID.
* @apilevel high-level
*/
public void setID(String value) {
tokenString_ID = value;
}
/** @apilevel internal
*/
protected String tokenString_ID;
/**
*/
public int IDstart;
/**
*/
public int IDend;
/**
* 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 Arg list.
* @param list The new list node to be used as the Arg list.
* @apilevel high-level
*/
public void setArgList(List list) {
setChild(list, 0);
}
/**
* Retrieves the number of children in the Arg list.
* @return Number of children in the Arg list.
* @apilevel high-level
*/
public int getNumArg() {
return getArgList().getNumChild();
}
/**
* Retrieves the number of children in the Arg list.
* Calling this method will not trigger rewrites.
* @return Number of children in the Arg list.
* @apilevel low-level
*/
public int getNumArgNoTransform() {
return getArgListNoTransform().getNumChildNoTransform();
}
/**
* Retrieves the element at index {@code i} in the Arg list.
* @param i Index of the element to return.
* @return The element at position {@code i} in the Arg list.
* @apilevel high-level
*/
public Expr getArg(int i) {
return (Expr) getArgList().getChild(i);
}
/**
* Check whether the Arg list has any children.
* @return {@code true} if it has at least one child, {@code false} otherwise.
* @apilevel high-level
*/
public boolean hasArg() {
return getArgList().getNumChild() != 0;
}
/**
* Append an element to the Arg list.
* @param node The element to append to the Arg list.
* @apilevel high-level
*/
public void addArg(Expr node) {
List list = (parent == null) ? getArgListNoTransform() : getArgList();
list.addChild(node);
}
/** @apilevel low-level
*/
public void addArgNoTransform(Expr node) {
List list = getArgListNoTransform();
list.addChild(node);
}
/**
* Replaces the Arg 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 setArg(Expr node, int i) {
List list = getArgList();
list.setChild(node, i);
}
/**
* Retrieves the Arg list.
* @return The node representing the Arg list.
* @apilevel high-level
*/
@ASTNodeAnnotation.ListChild(name="Arg")
public List getArgList() {
List list = (List) getChild(0);
return list;
}
/**
* Retrieves the Arg list.
* This method does not invoke AST transformations.
* @return The node representing the Arg list.
* @apilevel low-level
*/
public List getArgListNoTransform() {
return (List) getChildNoTransform(0);
}
/**
* @return the element at index {@code i} in the Arg list without
* triggering rewrites.
*/
public Expr getArgNoTransform(int i) {
return (Expr) getArgListNoTransform().getChildNoTransform(i);
}
/**
* Retrieves the Arg list.
* @return The node representing the Arg list.
* @apilevel high-level
*/
public List getArgs() {
return getArgList();
}
/**
* Retrieves the Arg list.
* This method does not invoke AST transformations.
* @return The node representing the Arg list.
* @apilevel low-level
*/
public List getArgsNoTransform() {
return getArgListNoTransform();
}
/**
* @aspect MethodSignature15
* @declaredat /home/jesper/git/extendj/java5/frontend/MethodSignature.jrag:33
*/
protected SimpleSet maxSpecific(Iterable candidates) {
SimpleSet potentiallyApplicable = potentiallyApplicable(candidates);
// First phase.
SimpleSet maxSpecific = emptySet();
for (MethodDecl method : potentiallyApplicable) {
if (applicableBySubtyping(method)) {
maxSpecific = mostSpecific(maxSpecific, method);
}
}
// Second phase.
if (maxSpecific.isEmpty()) {
for (MethodDecl method : potentiallyApplicable) {
if (applicableByMethodInvocationConversion(method)) {
maxSpecific = mostSpecific(maxSpecific, method);
}
}
}
// Third phase.
if (maxSpecific.isEmpty()) {
for (MethodDecl method : potentiallyApplicable) {
if (method.isVariableArity() && applicableVariableArity(method)) {
maxSpecific = mostSpecific(maxSpecific, method);
}
}
}
return maxSpecific;
}
/**
* @aspect GenericsCodegen
* @declaredat /home/jesper/git/extendj/java5/backend/GenericsCodegen.jrag:161
*/
public void createBCode(CodeGeneration gen) {
if (transformed() != this) {
// Ensure bytecode is generated for the transformed access.
transformed().createBCode(gen);
return;
}
MethodDecl decl = decl().erasedMethod();
createLoadQualifier(gen);
if (program().options().hasOption("-debug")) {
printDiagnosticMessages();
}
// Perform method invocation conversions.
for (int i = 0; i < getNumArg(); ++i) {
getArg(i).createBCode(gen);
// The cast or boxing/unboxing operation must know the bound rather than the erased type.
getArg(i).emitCastTo(gen, decl.paramType(i)); // Invocation conversion.
}
if (!decl.isStatic() && isQualified() && prevExpr().isSuperAccess()
|| isSuperAccessor) {
decl.emitInvokeSpecialMethod(gen, methodQualifierType());
} else {
decl.emitInvokeMethod(gen, methodQualifierType());
}
}
/**
* @aspect TypeAnalysis
* @declaredat /home/jesper/git/extendj/java4/frontend/TypeAnalysis.jrag:306
*/
private TypeDecl refined_TypeAnalysis_MethodAccess_type()
{ return decl().type(); }
/**
* @aspect Transformations
* @declaredat /home/jesper/git/extendj/java4/backend/Transformations.jrag:36
*/
private Access refined_Transformations_MethodAccess_transformed()
{
// Note: this attribute should return a MethodAccess that can not be transformed further!
if (requiresAccessor()) {
return transformedQualified();
} else {
return this;
}
}
/**
* @aspect InnerClasses
* @declaredat /home/jesper/git/extendj/java4/backend/InnerClasses.jrag:85
*/
private TypeDecl refined_InnerClasses_MethodAccess_methodQualifierType()
{
if (hasPrevExpr()) {
return prevExpr().type();
}
TypeDecl typeDecl = hostType();
// Find closest type that has the target method.
while (typeDecl != null) {
if (typeDecl.hasMethod(decl())) {
return typeDecl;
} else {
typeDecl = typeDecl.enclosingType();
}
}
return decl().hostType();
}
/**
* Defines the expected kind of name for the left hand side in a qualified
* expression.
* @attribute syn
* @aspect SyntacticClassification
* @declaredat /home/jesper/git/extendj/java4/frontend/SyntacticClassification.jrag:60
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="SyntacticClassification", declaredAt="/home/jesper/git/extendj/java4/frontend/SyntacticClassification.jrag:60")
public NameType predNameType() {
NameType predNameType_value = NameType.AMBIGUOUS_NAME;
return predNameType_value;
}
/**
* @attribute syn
* @aspect Names
* @declaredat /home/jesper/git/extendj/java4/frontend/QualifiedNames.jrag:36
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="Names", declaredAt="/home/jesper/git/extendj/java4/frontend/QualifiedNames.jrag:36")
public String name() {
String name_value = getID();
return name_value;
}
/**
* @attribute syn
* @aspect AccessTypes
* @declaredat /home/jesper/git/extendj/java4/frontend/ResolveAmbiguousNames.jrag:47
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="AccessTypes", declaredAt="/home/jesper/git/extendj/java4/frontend/ResolveAmbiguousNames.jrag:47")
public boolean isMethodAccess() {
boolean isMethodAccess_value = true;
return isMethodAccess_value;
}
/** @apilevel internal */
private void type_reset() {
type_computed = null;
type_value = null;
}
/** @apilevel internal */
protected ASTState.Cycle type_computed = null;
/** @apilevel internal */
protected TypeDecl type_value;
/**
* @attribute syn
* @aspect TypeAnalysis
* @declaredat /home/jesper/git/extendj/java4/frontend/TypeAnalysis.jrag:295
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="TypeAnalysis", declaredAt="/home/jesper/git/extendj/java4/frontend/TypeAnalysis.jrag:295")
public TypeDecl type() {
ASTState state = state();
if (type_computed == ASTState.NON_CYCLE || type_computed == state().cycle()) {
return type_value;
}
type_value = type_compute();
if (state().inCircle()) {
type_computed = state().cycle();
} else {
type_computed = ASTState.NON_CYCLE;
}
return type_value;
}
/** @apilevel internal */
private TypeDecl type_compute() {
if (getNumArg() == 0 && name().equals("getClass") && decl().hostType().isObject()) {
TypeDecl typeClass = lookupType("java.lang", "Class");
if (typeClass instanceof GenericClassDecl) {
TypeDecl bound = isQualified() ? qualifier().type() : hostType();
ArrayList args = new ArrayList();
args.add(bound.erasure().asWildcardExtends());
return ((GenericClassDecl) typeClass).lookupParTypeDecl(args);
}
}
// Legacy getClass access using non-generic java.lang.Class.
return refined_TypeAnalysis_MethodAccess_type();
}
/**
* Test if this method call has an argument of Unknown type.
*
* If an argument has Unknown type, then some error messages should
* be skipped because the root error is that the type of the argument
* could not be decided.
* @attribute syn
* @aspect TypeHierarchyCheck
* @declaredat /home/jesper/git/extendj/java4/frontend/TypeHierarchyCheck.jrag:58
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="TypeHierarchyCheck", declaredAt="/home/jesper/git/extendj/java4/frontend/TypeHierarchyCheck.jrag:58")
public boolean hasUnknownArg() {
{
for (Expr arg : getArgList()) {
if (arg.type().isUnknown()) {
return true;
}
}
return false;
}
}
/**
* @attribute syn
* @aspect TypeHierarchyCheck
* @declaredat /home/jesper/git/extendj/java4/frontend/TypeHierarchyCheck.jrag:69
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="TypeHierarchyCheck", declaredAt="/home/jesper/git/extendj/java4/frontend/TypeHierarchyCheck.jrag:69")
public Collection typeHierarchyProblems() {
{
Collection problems = new LinkedList();
if (isQualified() && qualifier().isPackageAccess() && !qualifier().isUnknown()) {
problems.add(errorf("The method %s can not be qualified by a package name.",
decl().fullSignature()));
}
if (isQualified() && decl().isAbstract() && qualifier().isSuperAccess()) {
problems.add(error("may not access abstract methods in superclass"));
}
if (decls().isEmpty() && !hasUnknownArg() && (!isQualified() || !qualifier().isUnknown())) {
StringBuilder sb = new StringBuilder();
sb.append("no method named " + name());
sb.append("(");
for (int i = 0; i < getNumArg(); i++) {
TypeDecl argType = getArg(i).type();
if (argType.isVoid()) {
// Error will be reported for the void argument in typeCheck
// so we return now to avoid confusing double errors.
return problems;
}
if (i != 0) {
sb.append(", ");
}
sb.append(argType.typeName());
}
sb.append(")" + " in " + methodHost() + " matches.");
if (singleCandidateDecl() != null) {
sb.append(" However, there is a method " + singleCandidateDecl().fullSignature());
}
problems.add(error(sb.toString()));
}
if (decls().size() > 1) {
boolean allAbstract = true;
for (MethodDecl m : decls()) {
if (!m.isAbstract() && !m.hostType().isObject()) {
allAbstract = false;
break;
}
}
if (!allAbstract && validArgs()) {
StringBuilder sb = new StringBuilder();
sb.append("several most specific methods for " + this.prettyPrint() + "\n");
for (MethodDecl m : decls()) {
sb.append(" " + m.fullSignature() + " in " + m.hostType().typeName() + "\n");
}
problems.add(error(sb.toString()));
}
}
return problems;
}
}
/** @apilevel internal */
private void computeDAbefore_int_Variable_reset() {
computeDAbefore_int_Variable_values = null;
}
protected java.util.Map computeDAbefore_int_Variable_values;
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN, isCircular=true)
@ASTNodeAnnotation.Source(aspect="DefiniteAssignment", declaredAt="/home/jesper/git/extendj/java4/frontend/DefiniteAssignment.jrag:502")
public boolean computeDAbefore(int i, Variable v) {
java.util.List _parameters = new java.util.ArrayList(2);
_parameters.add(i);
_parameters.add(v);
if (computeDAbefore_int_Variable_values == null) computeDAbefore_int_Variable_values = new java.util.HashMap(4);
ASTState.CircularValue _value;
if (computeDAbefore_int_Variable_values.containsKey(_parameters)) {
Object _cache = computeDAbefore_int_Variable_values.get(_parameters);
if (!(_cache instanceof ASTState.CircularValue)) {
return (Boolean) _cache;
} else {
_value = (ASTState.CircularValue) _cache;
}
} else {
_value = new ASTState.CircularValue();
computeDAbefore_int_Variable_values.put(_parameters, _value);
_value.value = true;
}
ASTState state = state();
if (!state.inCircle() || state.calledByLazyAttribute()) {
state.enterCircle();
boolean new_computeDAbefore_int_Variable_value;
do {
_value.cycle = state.nextCycle();
new_computeDAbefore_int_Variable_value = i == 0 ? assignedBefore(v) : getArg(i-1).assignedAfter(v);
if (((Boolean)_value.value) != new_computeDAbefore_int_Variable_value) {
state.setChangeInCycle();
_value.value = new_computeDAbefore_int_Variable_value;
}
} while (state.testAndClearChangeInCycle());
computeDAbefore_int_Variable_values.put(_parameters, new_computeDAbefore_int_Variable_value);
state.leaveCircle();
return new_computeDAbefore_int_Variable_value;
} else if (_value.cycle != state.cycle()) {
_value.cycle = state.cycle();
boolean new_computeDAbefore_int_Variable_value = i == 0 ? assignedBefore(v) : getArg(i-1).assignedAfter(v);
if (((Boolean)_value.value) != new_computeDAbefore_int_Variable_value) {
state.setChangeInCycle();
_value.value = new_computeDAbefore_int_Variable_value;
}
return new_computeDAbefore_int_Variable_value;
} else {
return (Boolean) _value.value;
}
}
/**
* @attribute syn
* @aspect DefiniteAssignment
* @declaredat /home/jesper/git/extendj/java4/frontend/DefiniteAssignment.jrag:268
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="DefiniteAssignment", declaredAt="/home/jesper/git/extendj/java4/frontend/DefiniteAssignment.jrag:268")
public boolean assignedAfter(Variable v) {
boolean assignedAfter_Variable_value = getNumArg() == 0
? assignedBefore(v)
: getArg(getNumArg()-1).assignedAfter(v);
return assignedAfter_Variable_value;
}
/**
* @attribute syn
* @aspect DefiniteAssignment
* @declaredat /home/jesper/git/extendj/java4/frontend/DefiniteAssignment.jrag:375
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="DefiniteAssignment", declaredAt="/home/jesper/git/extendj/java4/frontend/DefiniteAssignment.jrag:375")
public boolean assignedAfterTrue(Variable v) {
boolean assignedAfterTrue_Variable_value = isFalse() || (getNumArg() == 0 ? assignedBefore(v) : getArg(getNumArg()-1).assignedAfter(v));
return assignedAfterTrue_Variable_value;
}
/**
* @attribute syn
* @aspect DefiniteAssignment
* @declaredat /home/jesper/git/extendj/java4/frontend/DefiniteAssignment.jrag:377
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="DefiniteAssignment", declaredAt="/home/jesper/git/extendj/java4/frontend/DefiniteAssignment.jrag:377")
public boolean assignedAfterFalse(Variable v) {
boolean assignedAfterFalse_Variable_value = isTrue() || (getNumArg() == 0 ? assignedBefore(v) : getArg(getNumArg()-1).assignedAfter(v));
return assignedAfterFalse_Variable_value;
}
/** @apilevel internal */
private void computeDUbefore_int_Variable_reset() {
computeDUbefore_int_Variable_values = null;
}
protected java.util.Map computeDUbefore_int_Variable_values;
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN, isCircular=true)
@ASTNodeAnnotation.Source(aspect="DefiniteUnassignment", declaredAt="/home/jesper/git/extendj/java4/frontend/DefiniteAssignment.jrag:1118")
public boolean computeDUbefore(int i, Variable v) {
java.util.List _parameters = new java.util.ArrayList(2);
_parameters.add(i);
_parameters.add(v);
if (computeDUbefore_int_Variable_values == null) computeDUbefore_int_Variable_values = new java.util.HashMap(4);
ASTState.CircularValue _value;
if (computeDUbefore_int_Variable_values.containsKey(_parameters)) {
Object _cache = computeDUbefore_int_Variable_values.get(_parameters);
if (!(_cache instanceof ASTState.CircularValue)) {
return (Boolean) _cache;
} else {
_value = (ASTState.CircularValue) _cache;
}
} else {
_value = new ASTState.CircularValue();
computeDUbefore_int_Variable_values.put(_parameters, _value);
_value.value = true;
}
ASTState state = state();
if (!state.inCircle() || state.calledByLazyAttribute()) {
state.enterCircle();
boolean new_computeDUbefore_int_Variable_value;
do {
_value.cycle = state.nextCycle();
new_computeDUbefore_int_Variable_value = i == 0 ? unassignedBefore(v) : getArg(i-1).unassignedAfter(v);
if (((Boolean)_value.value) != new_computeDUbefore_int_Variable_value) {
state.setChangeInCycle();
_value.value = new_computeDUbefore_int_Variable_value;
}
} while (state.testAndClearChangeInCycle());
computeDUbefore_int_Variable_values.put(_parameters, new_computeDUbefore_int_Variable_value);
state.leaveCircle();
return new_computeDUbefore_int_Variable_value;
} else if (_value.cycle != state.cycle()) {
_value.cycle = state.cycle();
boolean new_computeDUbefore_int_Variable_value = i == 0 ? unassignedBefore(v) : getArg(i-1).unassignedAfter(v);
if (((Boolean)_value.value) != new_computeDUbefore_int_Variable_value) {
state.setChangeInCycle();
_value.value = new_computeDUbefore_int_Variable_value;
}
return new_computeDUbefore_int_Variable_value;
} else {
return (Boolean) _value.value;
}
}
/** @apilevel internal */
private void unassignedAfter_Variable_reset() {
unassignedAfter_Variable_values = null;
}
protected java.util.Map unassignedAfter_Variable_values;
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN, isCircular=true)
@ASTNodeAnnotation.Source(aspect="DefiniteUnassignment", declaredAt="/home/jesper/git/extendj/java4/frontend/DefiniteAssignment.jrag:899")
public boolean unassignedAfter(Variable v) {
Object _parameters = v;
if (unassignedAfter_Variable_values == null) unassignedAfter_Variable_values = new java.util.HashMap(4);
ASTState.CircularValue _value;
if (unassignedAfter_Variable_values.containsKey(_parameters)) {
Object _cache = unassignedAfter_Variable_values.get(_parameters);
if (!(_cache instanceof ASTState.CircularValue)) {
return (Boolean) _cache;
} else {
_value = (ASTState.CircularValue) _cache;
}
} else {
_value = new ASTState.CircularValue();
unassignedAfter_Variable_values.put(_parameters, _value);
_value.value = true;
}
ASTState state = state();
if (!state.inCircle() || state.calledByLazyAttribute()) {
state.enterCircle();
boolean new_unassignedAfter_Variable_value;
do {
_value.cycle = state.nextCycle();
new_unassignedAfter_Variable_value = getNumArg() == 0 ? unassignedBefore(v) : getArg(getNumArg()-1).unassignedAfter(v);
if (((Boolean)_value.value) != new_unassignedAfter_Variable_value) {
state.setChangeInCycle();
_value.value = new_unassignedAfter_Variable_value;
}
} while (state.testAndClearChangeInCycle());
unassignedAfter_Variable_values.put(_parameters, new_unassignedAfter_Variable_value);
state.leaveCircle();
return new_unassignedAfter_Variable_value;
} else if (_value.cycle != state.cycle()) {
_value.cycle = state.cycle();
boolean new_unassignedAfter_Variable_value = getNumArg() == 0 ? unassignedBefore(v) : getArg(getNumArg()-1).unassignedAfter(v);
if (((Boolean)_value.value) != new_unassignedAfter_Variable_value) {
state.setChangeInCycle();
_value.value = new_unassignedAfter_Variable_value;
}
return new_unassignedAfter_Variable_value;
} else {
return (Boolean) _value.value;
}
}
/** @apilevel internal */
private void unassignedAfterTrue_Variable_reset() {
unassignedAfterTrue_Variable_values = null;
}
protected java.util.Map unassignedAfterTrue_Variable_values;
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN, isCircular=true)
@ASTNodeAnnotation.Source(aspect="DefiniteUnassignment", declaredAt="/home/jesper/git/extendj/java4/frontend/DefiniteAssignment.jrag:905")
public boolean unassignedAfterTrue(Variable v) {
Object _parameters = v;
if (unassignedAfterTrue_Variable_values == null) unassignedAfterTrue_Variable_values = new java.util.HashMap(4);
ASTState.CircularValue _value;
if (unassignedAfterTrue_Variable_values.containsKey(_parameters)) {
Object _cache = unassignedAfterTrue_Variable_values.get(_parameters);
if (!(_cache instanceof ASTState.CircularValue)) {
return (Boolean) _cache;
} else {
_value = (ASTState.CircularValue) _cache;
}
} else {
_value = new ASTState.CircularValue();
unassignedAfterTrue_Variable_values.put(_parameters, _value);
_value.value = true;
}
ASTState state = state();
if (!state.inCircle() || state.calledByLazyAttribute()) {
state.enterCircle();
boolean new_unassignedAfterTrue_Variable_value;
do {
_value.cycle = state.nextCycle();
new_unassignedAfterTrue_Variable_value = isFalse()
|| (getNumArg() == 0 ? unassignedBefore(v) : getArg(getNumArg()-1).unassignedAfter(v));
if (((Boolean)_value.value) != new_unassignedAfterTrue_Variable_value) {
state.setChangeInCycle();
_value.value = new_unassignedAfterTrue_Variable_value;
}
} while (state.testAndClearChangeInCycle());
unassignedAfterTrue_Variable_values.put(_parameters, new_unassignedAfterTrue_Variable_value);
state.leaveCircle();
return new_unassignedAfterTrue_Variable_value;
} else if (_value.cycle != state.cycle()) {
_value.cycle = state.cycle();
boolean new_unassignedAfterTrue_Variable_value = isFalse()
|| (getNumArg() == 0 ? unassignedBefore(v) : getArg(getNumArg()-1).unassignedAfter(v));
if (((Boolean)_value.value) != new_unassignedAfterTrue_Variable_value) {
state.setChangeInCycle();
_value.value = new_unassignedAfterTrue_Variable_value;
}
return new_unassignedAfterTrue_Variable_value;
} else {
return (Boolean) _value.value;
}
}
/** @apilevel internal */
private void unassignedAfterFalse_Variable_reset() {
unassignedAfterFalse_Variable_values = null;
}
protected java.util.Map unassignedAfterFalse_Variable_values;
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN, isCircular=true)
@ASTNodeAnnotation.Source(aspect="DefiniteUnassignment", declaredAt="/home/jesper/git/extendj/java4/frontend/DefiniteAssignment.jrag:907")
public boolean unassignedAfterFalse(Variable v) {
Object _parameters = v;
if (unassignedAfterFalse_Variable_values == null) unassignedAfterFalse_Variable_values = new java.util.HashMap(4);
ASTState.CircularValue _value;
if (unassignedAfterFalse_Variable_values.containsKey(_parameters)) {
Object _cache = unassignedAfterFalse_Variable_values.get(_parameters);
if (!(_cache instanceof ASTState.CircularValue)) {
return (Boolean) _cache;
} else {
_value = (ASTState.CircularValue) _cache;
}
} else {
_value = new ASTState.CircularValue();
unassignedAfterFalse_Variable_values.put(_parameters, _value);
_value.value = true;
}
ASTState state = state();
if (!state.inCircle() || state.calledByLazyAttribute()) {
state.enterCircle();
boolean new_unassignedAfterFalse_Variable_value;
do {
_value.cycle = state.nextCycle();
new_unassignedAfterFalse_Variable_value = isTrue()
|| (getNumArg() == 0 ? unassignedBefore(v) : getArg(getNumArg()-1).unassignedAfter(v));
if (((Boolean)_value.value) != new_unassignedAfterFalse_Variable_value) {
state.setChangeInCycle();
_value.value = new_unassignedAfterFalse_Variable_value;
}
} while (state.testAndClearChangeInCycle());
unassignedAfterFalse_Variable_values.put(_parameters, new_unassignedAfterFalse_Variable_value);
state.leaveCircle();
return new_unassignedAfterFalse_Variable_value;
} else if (_value.cycle != state.cycle()) {
_value.cycle = state.cycle();
boolean new_unassignedAfterFalse_Variable_value = isTrue()
|| (getNumArg() == 0 ? unassignedBefore(v) : getArg(getNumArg()-1).unassignedAfter(v));
if (((Boolean)_value.value) != new_unassignedAfterFalse_Variable_value) {
state.setChangeInCycle();
_value.value = new_unassignedAfterFalse_Variable_value;
}
return new_unassignedAfterFalse_Variable_value;
} else {
return (Boolean) _value.value;
}
}
/**
* @attribute syn
* @aspect NameCheck
* @declaredat /home/jesper/git/extendj/java4/frontend/NameCheck.jrag:97
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="NameCheck", declaredAt="/home/jesper/git/extendj/java4/frontend/NameCheck.jrag:97")
public boolean validArgs() {
{
for (int i = 0; i < getNumArg(); i++) {
if (getArg(i).type().isUnknown()) {
return false;
}
}
return true;
}
}
/**
* @attribute syn
* @aspect ExceptionHandling
* @declaredat /home/jesper/git/extendj/java4/frontend/ExceptionHandling.jrag:100
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="ExceptionHandling", declaredAt="/home/jesper/git/extendj/java4/frontend/ExceptionHandling.jrag:100")
public Collection exceptionHandlingProblems() {
{
Collection problems = new LinkedList();
for (TypeDecl exceptionType : exceptionCollection()) {
if (exceptionType.isCheckedException() && !handlesException(exceptionType)) {
problems.add(errorf("%s.%s invoked in %s may throw uncaught exception %s",
decl().hostType().fullName(), this.name(),
hostType().fullName(), exceptionType.fullName()));
}
}
return problems;
}
}
/** @apilevel internal */
private void exceptionCollection_reset() {
exceptionCollection_computed = null;
exceptionCollection_value = null;
}
/** @apilevel internal */
protected ASTState.Cycle exceptionCollection_computed = null;
/** @apilevel internal */
protected Collection exceptionCollection_value;
/** @return the exception types possibly thrown by this method access
* @attribute syn
* @aspect ExceptionHandling
* @declaredat /home/jesper/git/extendj/java4/frontend/ExceptionHandling.jrag:113
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="ExceptionHandling", declaredAt="/home/jesper/git/extendj/java4/frontend/ExceptionHandling.jrag:113")
public Collection exceptionCollection() {
ASTState state = state();
if (exceptionCollection_computed == ASTState.NON_CYCLE || exceptionCollection_computed == state().cycle()) {
return exceptionCollection_value;
}
exceptionCollection_value = exceptionCollection_compute();
if (state().inCircle()) {
exceptionCollection_computed = state().cycle();
} else {
exceptionCollection_computed = ASTState.NON_CYCLE;
}
return exceptionCollection_value;
}
/** @apilevel internal */
private Collection exceptionCollection_compute() {
Collection exceptions = new HashSet();
Iterator iter = decls().iterator();
if (!iter.hasNext()) {
return exceptions;
}
MethodDecl m = iter.next();
for (int i = 0; i < m.getNumException(); i++) {
TypeDecl exceptionType = m.getException(i).type();
exceptions.add(exceptionType);
}
while (iter.hasNext()) {
Collection first = new HashSet();
first.addAll(exceptions);
Collection second = new HashSet();
m = iter.next();
for (int i = 0; i < m.getNumException(); i++) {
TypeDecl exceptionType = m.getException(i).type();
second.add(exceptionType);
}
exceptions = new HashSet();
for (TypeDecl firstType : first) {
for (TypeDecl secondType : second) {
if (firstType.instanceOf(secondType)) {
exceptions.add(firstType);
} else if (secondType.instanceOf(firstType)) {
exceptions.add(secondType);
}
}
}
}
return exceptions;
}
/**
* Returns one of the candidate declarations of this method access,
* or {@code null} if there exist no possible candidate declarations.
*
* This attribute is only used in error reporting, to give a hint about
* a candidate declaration that was not applicable for method invocation
* for some reason.
* @attribute syn
* @aspect LookupMethod
* @declaredat /home/jesper/git/extendj/java4/frontend/LookupMethod.jrag:204
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="LookupMethod", declaredAt="/home/jesper/git/extendj/java4/frontend/LookupMethod.jrag:204")
public MethodDecl singleCandidateDecl() {
{
String signature = "";
MethodDecl result = null;
for (MethodDecl m : lookupMethod(name())) {
String otherSignature = m.fullSignature();
// Choose the candidate matching arity or the lexicographically first signature.
if (result == null
|| (m.getNumParameter() == getNumArg() && result.getNumParameter() != getNumArg())
|| (m.getNumParameter() == getNumArg() && otherSignature.compareTo(signature) < 0)) {
signature = otherSignature;
result = m;
}
}
return result;
}
}
/** @apilevel internal */
private void decls_reset() {
decls_computed = null;
decls_value = null;
}
/** @apilevel internal */
protected ASTState.Cycle decls_computed = null;
/** @apilevel internal */
protected SimpleSet decls_value;
/**
* Find all most specific applicable method declarations for this invocation.
* @attribute syn
* @aspect LookupMethod
* @declaredat /home/jesper/git/extendj/java4/frontend/LookupMethod.jrag:246
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="LookupMethod", declaredAt="/home/jesper/git/extendj/java4/frontend/LookupMethod.jrag:246")
public SimpleSet decls() {
ASTState state = state();
if (decls_computed == ASTState.NON_CYCLE || decls_computed == state().cycle()) {
return decls_value;
}
decls_value = decls_compute();
if (state().inCircle()) {
decls_computed = state().cycle();
} else {
decls_computed = ASTState.NON_CYCLE;
}
return decls_value;
}
/** @apilevel internal */
private SimpleSet decls_compute() {
SimpleSet maxSpecific = maxSpecific(lookupMethod(name()));
if (isQualified() ? qualifier().staticContextQualifier() : inStaticContext()) {
maxSpecific = keepStaticMethods(maxSpecific);
}
return maxSpecific;
}
/** @apilevel internal */
private void decl_reset() {
decl_computed = null;
decl_value = null;
}
/** @apilevel internal */
protected ASTState.Cycle decl_computed = null;
/** @apilevel internal */
protected MethodDecl decl_value;
/**
* Find the single method declaration matching this invocation.
*
* If no such declaration exists, the unknown method declaration is returned
* instead.
* @attribute syn
* @aspect LookupMethod
* @declaredat /home/jesper/git/extendj/java4/frontend/LookupMethod.jrag:260
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="LookupMethod", declaredAt="/home/jesper/git/extendj/java4/frontend/LookupMethod.jrag:260")
public MethodDecl decl() {
ASTState state = state();
if (decl_computed == ASTState.NON_CYCLE || decl_computed == state().cycle()) {
return decl_value;
}
decl_value = decl_compute();
if (state().inCircle()) {
decl_computed = state().cycle();
} else {
decl_computed = ASTState.NON_CYCLE;
}
return decl_value;
}
/** @apilevel internal */
private MethodDecl decl_compute() {
SimpleSet decls = decls();
if (decls.isSingleton()) {
return decls.singletonValue();
}
// Only return the first method in case of multiply inherited abstract methods.
// See JLS6 section 8.4.6.4.
boolean allAbstract = true;
for (MethodDecl m : decls) {
if (!m.isAbstract() && !m.hostType().isObject()) {
allAbstract = false;
break;
}
}
if (decls.size() > 1 && allAbstract) {
return decls.iterator().next();
}
return unknownMethod();
}
/**
* Determine if a candidate method declaration is accessible
* from this invocation.
* @attribute syn
* @aspect MethodDecl
* @declaredat /home/jesper/git/extendj/java4/frontend/LookupMethod.jrag:410
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="MethodDecl", declaredAt="/home/jesper/git/extendj/java4/frontend/LookupMethod.jrag:410")
public boolean accessible(MethodDecl m) {
{
if (!isQualified()) {
return true;
}
if (!m.accessibleFrom(hostType())) {
return false;
}
// The method is not accessible if the type is not accessible.
if (!qualifier().type().accessibleFrom(hostType())) {
return false;
}
// 6.6.2.1 - include qualifier type for protected access
if (m.isProtected() && !m.hostPackage().equals(hostPackage())
&& !m.isStatic() && !qualifier().isSuperAccess()) {
return hostType().mayAccess(this, m);
}
return true;
}
}
/**
* @attribute syn
* @aspect TypeCheck
* @declaredat /home/jesper/git/extendj/java4/frontend/TypeCheck.jrag:152
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="TypeCheck", declaredAt="/home/jesper/git/extendj/java4/frontend/TypeCheck.jrag:152")
public Collection typeProblems() {
{
Collection problems = new LinkedList();
for (int i = 0; i < getNumArg(); ++i) {
if (getArg(i).type().isVoid()) {
problems.add(errorf("expression '%s' has type void and is not a valid method argument",
getArg(i).prettyPrint()));
}
}
if (isQualified() && decl().isAbstract() && qualifier().isSuperAccess()) {
problems.add(error("may not access abstract methods in superclass"));
}
if (!decl().isVariableArity() || invokesVariableArityAsArray()) {
for (int i = 0; i < decl().getNumParameter(); i++) {
TypeDecl exprType = getArg(i).type();
TypeDecl parmType = decl().getParameter(i).type();
if (!exprType.methodInvocationConversionTo(parmType) &&
!exprType.isUnknown() && !parmType.isUnknown()) {
problems.add(errorf("argument '%s' of type %s is not compatible with the method parameter type %s",
getArg(i).prettyPrint(), exprType.typeName(), parmType.typeName()));
}
}
}
return problems;
}
}
/**
* @attribute syn
* @aspect VariableArityParameters
* @declaredat /home/jesper/git/extendj/java5/frontend/VariableArityParameters.jrag:65
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="VariableArityParameters", declaredAt="/home/jesper/git/extendj/java5/frontend/VariableArityParameters.jrag:65")
public boolean invokesVariableArityAsArray() {
{
if (!decl().isVariableArity()) {
return false;
}
if (arity() != decl().arity()) {
return false;
}
return getArg(getNumArg()-1).type().methodInvocationConversionTo(decl().lastParameter().type());
}
}
/**
* @attribute syn
* @aspect MethodSignature15
* @declaredat /home/jesper/git/extendj/java5/frontend/MethodSignature.jrag:325
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="MethodSignature15", declaredAt="/home/jesper/git/extendj/java5/frontend/MethodSignature.jrag:325")
public boolean applicableBySubtyping(MethodDecl m) {
{
if (m.getNumParameter() != getNumArg()) {
return false;
}
for (int i = 0; i < m.getNumParameter(); i++) {
TypeDecl arg = getArg(i).type();
TypeDecl param = m.getParameter(i).type();
if (!arg.subtype(param)) {
return false;
}
}
return true;
}
}
/**
* @attribute syn
* @aspect MethodSignature15
* @declaredat /home/jesper/git/extendj/java5/frontend/MethodSignature.jrag:353
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="MethodSignature15", declaredAt="/home/jesper/git/extendj/java5/frontend/MethodSignature.jrag:353")
public boolean applicableByMethodInvocationConversion(MethodDecl m) {
{
if (m.getNumParameter() != getNumArg()) {
return false;
}
for (int i = 0; i < m.getNumParameter(); i++) {
if (!getArg(i).type().methodInvocationConversionTo(m.getParameter(i).type())) {
return false;
}
}
return true;
}
}
/**
* @attribute syn
* @aspect MethodSignature15
* @declaredat /home/jesper/git/extendj/java5/frontend/MethodSignature.jrag:378
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="MethodSignature15", declaredAt="/home/jesper/git/extendj/java5/frontend/MethodSignature.jrag:378")
public boolean applicableVariableArity(MethodDecl m) {
{
for (int i = 0; i < m.getNumParameter() - 1; i++) {
if (!getArg(i).type().methodInvocationConversionTo(m.getParameter(i).type())) {
return false;
}
}
for (int i = m.getNumParameter() - 1; i < getNumArg(); i++) {
if (!getArg(i).type().methodInvocationConversionTo(
m.lastParameter().type().componentType())) {
return false;
}
}
return true;
}
}
/**
* A member method is potentially applicable to a method invocation if and
* only if all of the following are true:
*
* - The name of the member is identical to the name of the method in the
* method invocation.
*
- The member is accessible (\ufffd6.6) to the class or interface in which
* the method invocation appears.
*
- The arity of the member is lesser or equal to the arity of the
* method invocation.
*
- If the member is a variable arity method with arity n, the arity of
* the method invocation is greater or equal to n-1.
*
- If the member is a fixed arity method with arity n, the arity of the
* method invocation is equal to n.
*
- If the method invocation includes explicit type parameters, and the
* member is a generic method, then the number of actual type parameters is
* equal to the number of formal type parameters.
*
* @attribute syn
* @aspect MethodSignature15
* @declaredat /home/jesper/git/extendj/java5/frontend/MethodSignature.jrag:478
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="MethodSignature15", declaredAt="/home/jesper/git/extendj/java5/frontend/MethodSignature.jrag:478")
public boolean potentiallyApplicable(MethodDecl m) {
{
if (!m.name().equals(name())) {
return false;
}
if (!m.accessibleFrom(hostType())) {
return false;
}
if (m.isVariableArity() && !(arity() >= m.arity() - 1)) {
return false;
}
if (!m.isVariableArity() && !(m.arity() == arity())) {
return false;
}
if (m.isGeneric()) {
GenericMethodDecl gm = m.genericDecl();
ArrayList typeArguments = inferTypeArguments(
m.type(),
m.getParameterList(),
getArgList(),
gm.getTypeParameterList());
if (!typeArguments.isEmpty()) {
if (gm.getNumTypeParameter() != typeArguments.size()) {
return false;
}
ParMethodDecl parMethod = gm.lookupParMethodDecl(typeArguments);
for (int i = 0; i < gm.getNumTypeParameter(); i++) {
if (!typeArguments.get(i).withinBounds(parMethod.getTypeParameter(i))) {
return false;
}
}
}
}
return true;
}
}
/**
* @attribute syn
* @aspect MethodSignature15
* @declaredat /home/jesper/git/extendj/java5/frontend/MethodSignature.jrag:514
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="MethodSignature15", declaredAt="/home/jesper/git/extendj/java5/frontend/MethodSignature.jrag:514")
public int arity() {
int arity_value = getNumArg();
return arity_value;
}
/** @apilevel internal */
private void transformed_reset() {
transformed_computed = null;
transformed_value = null;
}
/** @apilevel internal */
protected ASTState.Cycle transformed_computed = null;
/** @apilevel internal */
protected Access transformed_value;
/**
* Normalized version of this method access.
* @attribute syn
* @aspect Transformations
* @declaredat /home/jesper/git/extendj/java4/backend/Transformations.jrag:36
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="Transformations", declaredAt="/home/jesper/git/extendj/java4/backend/Transformations.jrag:36")
public Access transformed() {
ASTState state = state();
if (transformed_computed == ASTState.NON_CYCLE || transformed_computed == state().cycle()) {
return transformed_value;
}
transformed_value = transformed_compute();
if (state().inCircle()) {
transformed_computed = state().cycle();
} else {
transformed_computed = ASTState.NON_CYCLE;
}
return transformed_value;
}
/** @apilevel internal */
private Access transformed_compute() {
if (decl().isVariableArity() && !invokesVariableArityAsArray()) {
return transformedVariableArity();
} else {
return refined_Transformations_MethodAccess_transformed();
}
}
/** @apilevel internal */
private void transformedQualified_reset() {
transformedQualified_computed = false;
transformedQualified_value = null;
}
/** @apilevel internal */
protected boolean transformedQualified_computed = false;
/** @apilevel internal */
protected Access transformedQualified_value;
/**
* Transforms this method access to use a method accessor.
* @attribute syn
* @aspect Transformations
* @declaredat /home/jesper/git/extendj/java4/backend/Transformations.jrag:51
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN, isNTA=true)
@ASTNodeAnnotation.Source(aspect="Transformations", declaredAt="/home/jesper/git/extendj/java4/backend/Transformations.jrag:51")
public Access transformedQualified() {
ASTState state = state();
if (transformedQualified_computed) {
return transformedQualified_value;
}
state().enterLazyAttribute();
transformedQualified_value = methodQualifierType().methodAccessor(decl())
.createBoundAccess(getArgList().treeCopyNoTransform());
transformedQualified_value.setParent(this);
transformedQualified_computed = true;
state().leaveLazyAttribute();
return transformedQualified_value;
}
/**
* @attribute syn
* @aspect InnerClasses
* @declaredat /home/jesper/git/extendj/java4/backend/InnerClasses.jrag:85
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="InnerClasses", declaredAt="/home/jesper/git/extendj/java4/backend/InnerClasses.jrag:85")
public TypeDecl methodQualifierType() {
{
TypeDecl typeDecl = refined_InnerClasses_MethodAccess_methodQualifierType();
if (typeDecl == null) {
return null;
}
typeDecl = typeDecl.erasure();
Collection methods = typeDecl.memberMethods(name());
if (!methods.contains(decl()) && !methods.contains(decl().sourceMethodDecl())) {
return decl().hostType();
}
return typeDecl;
}
}
/**
* @attribute syn
* @aspect InnerClasses
* @declaredat /home/jesper/git/extendj/java4/backend/InnerClasses.jrag:415
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="InnerClasses", declaredAt="/home/jesper/git/extendj/java4/backend/InnerClasses.jrag:415")
public boolean requiresAccessor() {
{
MethodDecl decl = decl();
if (decl.isPrivate() && decl.hostType().original() != hostType().original()) {
return true;
}
return decl.isProtected()
&& !decl.hostPackage().equals(hostPackage())
&& !hostType().hasMethod(decl);
}
}
/**
* @return {@code true} if this access is a method call of a non-static method.
* @attribute syn
* @aspect GenerateClassfile
* @declaredat /home/jesper/git/extendj/java4/backend/GenerateClassfile.jrag:419
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="GenerateClassfile", declaredAt="/home/jesper/git/extendj/java4/backend/GenerateClassfile.jrag:419")
public boolean isInstanceMethodAccess() {
boolean isInstanceMethodAccess_value = !decl().isStatic();
return isInstanceMethodAccess_value;
}
/** @apilevel internal */
private void transformedVariableArity_reset() {
transformedVariableArity_computed = false;
transformedVariableArity_value = null;
}
/** @apilevel internal */
protected boolean transformedVariableArity_computed = false;
/** @apilevel internal */
protected MethodAccess transformedVariableArity_value;
/**
* Transforms this variable arity method call to a
* call with matching arity.
*
* Variable arity parameters are packed into an array
* argument.
* @attribute syn
* @aspect VariableArityParametersCodegen
* @declaredat /home/jesper/git/extendj/java5/backend/VariableArityParametersCodegen.jrag:56
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN, isNTA=true)
@ASTNodeAnnotation.Source(aspect="VariableArityParametersCodegen", declaredAt="/home/jesper/git/extendj/java5/backend/VariableArityParametersCodegen.jrag:56")
public MethodAccess transformedVariableArity() {
ASTState state = state();
if (transformedVariableArity_computed) {
return transformedVariableArity_value;
}
state().enterLazyAttribute();
transformedVariableArity_value = transformedVariableArity_compute();
transformedVariableArity_value.setParent(this);
transformedVariableArity_computed = true;
state().leaveLazyAttribute();
return transformedVariableArity_value;
}
/** @apilevel internal */
private MethodAccess transformedVariableArity_compute() {
MethodDecl decl = decl();
// Copy regular arguments.
List args = new List();
for (int i = 0; i < decl.getNumParameter() - 1; i++) {
args.add(getArg(i).treeCopyNoTransform());
}
// Compress arguments to the variable arity parameter.
List last = new List();
for (int i = decl.getNumParameter() - 1; i < getNumArg(); i++) {
last.add(getArg(i).treeCopyNoTransform());
}
// Build an array holding arguments.
Access typeAccess = decl.lastParameter().type().elementType().createQualifiedAccess();
for (int i = 0; i < decl.lastParameter().type().dimension(); i++) {
typeAccess = new ArrayTypeAccess(typeAccess);
}
args.add(new ArrayCreationExpr(typeAccess, new Opt(new ArrayInit(last))));
if (decl instanceof ParMethodDecl) {
// Create a parameterized access to avoid unnecessary type inference.
ParMethodDecl parMethod = (ParMethodDecl) decl;
return new ParMethodAccess(getID(), args,
parMethod.getTypeArgumentList().treeCopyNoTransform());
} else {
return new MethodAccess(getID(), args);
}
}
/**
* This finds the erased runtime type of this expression.
*
* The erased type of a field or method depends on the original
* declaration of the field or method (without generic type substitution).
*
*
The erased type is used to determine when a checkcast conversion is
* needed to cast a generic type to the expected type.
* @attribute syn
* @aspect GenericsCodegen
* @declaredat /home/jesper/git/extendj/java5/backend/GenericsCodegen.jrag:147
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.SYN)
@ASTNodeAnnotation.Source(aspect="GenericsCodegen", declaredAt="/home/jesper/git/extendj/java5/backend/GenericsCodegen.jrag:147")
public TypeDecl erasedType() {
TypeDecl erasedType_value = decl().erasedMethod().type();
return erasedType_value;
}
/**
* @attribute inh
* @aspect TypeHierarchyCheck
* @declaredat /home/jesper/git/extendj/java4/frontend/TypeHierarchyCheck.jrag:200
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.INH)
@ASTNodeAnnotation.Source(aspect="TypeHierarchyCheck", declaredAt="/home/jesper/git/extendj/java4/frontend/TypeHierarchyCheck.jrag:200")
public boolean inExplicitConstructorInvocation() {
boolean inExplicitConstructorInvocation_value = getParent().Define_inExplicitConstructorInvocation(this, null);
return inExplicitConstructorInvocation_value;
}
/**
* @attribute inh
* @aspect ExceptionHandling
* @declaredat /home/jesper/git/extendj/java4/frontend/ExceptionHandling.jrag:88
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.INH)
@ASTNodeAnnotation.Source(aspect="ExceptionHandling", declaredAt="/home/jesper/git/extendj/java4/frontend/ExceptionHandling.jrag:88")
public boolean handlesException(TypeDecl exceptionType) {
boolean handlesException_TypeDecl_value = getParent().Define_handlesException(this, null, exceptionType);
return handlesException_TypeDecl_value;
}
/**
* Returns a method declaration representing unknown methods.
* Used in method lookup when no matching method was found.
* @attribute inh
* @aspect LookupMethod
* @declaredat /home/jesper/git/extendj/java4/frontend/LookupMethod.jrag:49
*/
@ASTNodeAnnotation.Attribute(kind=ASTNodeAnnotation.Kind.INH)
@ASTNodeAnnotation.Source(aspect="LookupMethod", declaredAt="/home/jesper/git/extendj/java4/frontend/LookupMethod.jrag:49")
public MethodDecl unknownMethod() {
MethodDecl unknownMethod_value = getParent().Define_unknownMethod(this, null);
return unknownMethod_value;
}
/**
* @declaredat /home/jesper/git/extendj/java4/frontend/SyntacticClassification.jrag:36
* @apilevel internal
*/
public NameType Define_nameType(ASTNode _callerNode, ASTNode _childNode) {
if (_callerNode == getArgListNoTransform()) {
// @declaredat /home/jesper/git/extendj/java4/frontend/SyntacticClassification.jrag:139
int childIndex = _callerNode.getIndexOfChild(_childNode);
return NameType.EXPRESSION_NAME;
}
else {
return getParent().Define_nameType(this, _callerNode);
}
}
/**
* @declaredat /home/jesper/git/extendj/java4/frontend/SyntacticClassification.jrag:36
* @apilevel internal
* @return {@code true} if this node has an equation for the inherited attribute nameType
*/
protected boolean canDefine_nameType(ASTNode _callerNode, ASTNode _childNode) {
return true;
}
/**
* @declaredat /home/jesper/git/extendj/java4/frontend/ResolveAmbiguousNames.jrag:101
* @apilevel internal
*/
public boolean Define_isRightChildOfDot(ASTNode _callerNode, ASTNode _childNode) {
if (_callerNode == getArgListNoTransform()) {
// @declaredat /home/jesper/git/extendj/java4/frontend/ResolveAmbiguousNames.jrag:107
int childIndex = _callerNode.getIndexOfChild(_childNode);
return false;
}
else {
int childIndex = this.getIndexOfChild(_callerNode);
return isRightChildOfDot();
}
}
/**
* @declaredat /home/jesper/git/extendj/java4/frontend/ResolveAmbiguousNames.jrag:101
* @apilevel internal
* @return {@code true} if this node has an equation for the inherited attribute isRightChildOfDot
*/
protected boolean canDefine_isRightChildOfDot(ASTNode _callerNode, ASTNode _childNode) {
return true;
}
/**
* @declaredat /home/jesper/git/extendj/java4/frontend/ResolveAmbiguousNames.jrag:118
* @apilevel internal
*/
public Expr Define_prevExpr(ASTNode _callerNode, ASTNode _childNode) {
if (_callerNode == getArgListNoTransform()) {
// @declaredat /home/jesper/git/extendj/java4/frontend/ResolveAmbiguousNames.jrag:123
int childIndex = _callerNode.getIndexOfChild(_childNode);
return prevExprError();
}
else {
int childIndex = this.getIndexOfChild(_callerNode);
return prevExpr();
}
}
/**
* @declaredat /home/jesper/git/extendj/java4/frontend/ResolveAmbiguousNames.jrag:118
* @apilevel internal
* @return {@code true} if this node has an equation for the inherited attribute prevExpr
*/
protected boolean canDefine_prevExpr(ASTNode _callerNode, ASTNode _childNode) {
return true;
}
/**
* @declaredat /home/jesper/git/extendj/java4/frontend/LookupType.jrag:113
* @apilevel internal
*/
public boolean Define_hasPackage(ASTNode _callerNode, ASTNode _childNode, String packageName) {
if (_callerNode == getArgListNoTransform()) {
// @declaredat /home/jesper/git/extendj/java4/frontend/LookupType.jrag:114
int childIndex = _callerNode.getIndexOfChild(_childNode);
return unqualifiedScope().hasPackage(packageName);
}
else {
return getParent().Define_hasPackage(this, _callerNode, packageName);
}
}
/**
* @declaredat /home/jesper/git/extendj/java4/frontend/LookupType.jrag:113
* @apilevel internal
* @return {@code true} if this node has an equation for the inherited attribute hasPackage
*/
protected boolean canDefine_hasPackage(ASTNode _callerNode, ASTNode _childNode, String packageName) {
return true;
}
/**
* @declaredat /home/jesper/git/extendj/java5/frontend/GenericMethods.jrag:231
* @apilevel internal
*/
public SimpleSet Define_lookupType(ASTNode _callerNode, ASTNode _childNode, String name) {
if (_callerNode == transformedQualified_value) {
// @declaredat /home/jesper/git/extendj/java4/backend/Transformations.jrag:45
return unqualifiedScope().lookupType(name);
}
else if (_callerNode == getArgListNoTransform()) {
// @declaredat /home/jesper/git/extendj/java4/frontend/LookupType.jrag:385
int childIndex = _callerNode.getIndexOfChild(_childNode);
return unqualifiedScope().lookupType(name);
}
else {
return getParent().Define_lookupType(this, _callerNode, name);
}
}
/**
* @declaredat /home/jesper/git/extendj/java5/frontend/GenericMethods.jrag:231
* @apilevel internal
* @return {@code true} if this node has an equation for the inherited attribute lookupType
*/
protected boolean canDefine_lookupType(ASTNode _callerNode, ASTNode _childNode, String name) {
return true;
}
/**
* @declaredat /home/jesper/git/extendj/java5/frontend/EnhancedFor.jrag:138
* @apilevel internal
*/
public SimpleSet Define_lookupVariable(ASTNode _callerNode, ASTNode _childNode, String name) {
int childIndex = this.getIndexOfChild(_callerNode);
return unqualifiedScope().lookupVariable(name);
}
/**
* @declaredat /home/jesper/git/extendj/java5/frontend/EnhancedFor.jrag:138
* @apilevel internal
* @return {@code true} if this node has an equation for the inherited attribute lookupVariable
*/
protected boolean canDefine_lookupVariable(ASTNode _callerNode, ASTNode _childNode, String name) {
return true;
}
/**
* @declaredat /home/jesper/git/extendj/java4/frontend/TypeHierarchyCheck.jrag:33
* @apilevel internal
*/
public String Define_methodHost(ASTNode _callerNode, ASTNode _childNode) {
int childIndex = this.getIndexOfChild(_callerNode);
return unqualifiedScope().methodHost();
}
/**
* @declaredat /home/jesper/git/extendj/java4/frontend/TypeHierarchyCheck.jrag:33
* @apilevel internal
* @return {@code true} if this node has an equation for the inherited attribute methodHost
*/
protected boolean canDefine_methodHost(ASTNode _callerNode, ASTNode _childNode) {
return true;
}
/**
* @declaredat /home/jesper/git/extendj/java4/frontend/DefiniteAssignment.jrag:256
* @apilevel internal
*/
public boolean Define_assignedBefore(ASTNode _callerNode, ASTNode _childNode, Variable v) {
if (_callerNode == getArgListNoTransform()) {
// @declaredat /home/jesper/git/extendj/java4/frontend/DefiniteAssignment.jrag:500
int i = _callerNode.getIndexOfChild(_childNode);
return computeDAbefore(i, v);
}
else {
return getParent().Define_assignedBefore(this, _callerNode, v);
}
}
/**
* @declaredat /home/jesper/git/extendj/java4/frontend/DefiniteAssignment.jrag:256
* @apilevel internal
* @return {@code true} if this node has an equation for the inherited attribute assignedBefore
*/
protected boolean canDefine_assignedBefore(ASTNode _callerNode, ASTNode _childNode, Variable v) {
return true;
}
/**
* @declaredat /home/jesper/git/extendj/java4/frontend/DefiniteAssignment.jrag:887
* @apilevel internal
*/
public boolean Define_unassignedBefore(ASTNode _callerNode, ASTNode _childNode, Variable v) {
if (_callerNode == getArgListNoTransform()) {
// @declaredat /home/jesper/git/extendj/java4/frontend/DefiniteAssignment.jrag:1116
int i = _callerNode.getIndexOfChild(_childNode);
return computeDUbefore(i, v);
}
else {
return getParent().Define_unassignedBefore(this, _callerNode, v);
}
}
/**
* @declaredat /home/jesper/git/extendj/java4/frontend/DefiniteAssignment.jrag:887
* @apilevel internal
* @return {@code true} if this node has an equation for the inherited attribute unassignedBefore
*/
protected boolean canDefine_unassignedBefore(ASTNode _callerNode, ASTNode _childNode, Variable v) {
return true;
}
/**
* @declaredat /home/jesper/git/extendj/java4/frontend/LookupMethod.jrag:116
* @apilevel internal
*/
public Collection Define_lookupMethod(ASTNode _callerNode, ASTNode _childNode, String name) {
if (_callerNode == getArgListNoTransform()) {
// @declaredat /home/jesper/git/extendj/java4/frontend/LookupMethod.jrag:128
int childIndex = _callerNode.getIndexOfChild(_childNode);
return unqualifiedScope().lookupMethod(name);
}
else {
return getParent().Define_lookupMethod(this, _callerNode, name);
}
}
/**
* @declaredat /home/jesper/git/extendj/java4/frontend/LookupMethod.jrag:116
* @apilevel internal
* @return {@code true} if this node has an equation for the inherited attribute lookupMethod
*/
protected boolean canDefine_lookupMethod(ASTNode _callerNode, ASTNode _childNode, String name) {
return true;
}
/**
* @declaredat /home/jesper/git/extendj/java5/frontend/GenericMethodsInference.jrag:69
* @apilevel internal
*/
public TypeDecl Define_assignConvertedType(ASTNode _callerNode, ASTNode _childNode) {
if (_callerNode == getArgListNoTransform()) {
// @declaredat /home/jesper/git/extendj/java5/frontend/GenericMethodsInference.jrag:95
int index = _callerNode.getIndexOfChild(_childNode);
return typeObject();
}
else {
return getParent().Define_assignConvertedType(this, _callerNode);
}
}
/**
* @declaredat /home/jesper/git/extendj/java5/frontend/GenericMethodsInference.jrag:69
* @apilevel internal
* @return {@code true} if this node has an equation for the inherited attribute assignConvertedType
*/
protected boolean canDefine_assignConvertedType(ASTNode _callerNode, ASTNode _childNode) {
return true;
}
/** @apilevel internal */
public ASTNode rewriteTo() {
return super.rewriteTo();
}
/** @apilevel internal */
public boolean canRewrite() {
return false;
}
/** @apilevel internal */
protected void collect_contributors_CompilationUnit_problems(CompilationUnit _root, java.util.Map> _map) {
// @declaredat /home/jesper/git/extendj/java4/frontend/TypeHierarchyCheck.jrag:67
{
java.util.Set contributors = _map.get(_root);
if (contributors == null) {
contributors = new java.util.LinkedHashSet();
_map.put((ASTNode) _root, contributors);
}
contributors.add(this);
}
// @declaredat /home/jesper/git/extendj/java4/frontend/ExceptionHandling.jrag:98
{
java.util.Set contributors = _map.get(_root);
if (contributors == null) {
contributors = new java.util.LinkedHashSet();
_map.put((ASTNode) _root, contributors);
}
contributors.add(this);
}
// @declaredat /home/jesper/git/extendj/java4/frontend/TypeCheck.jrag:150
{
java.util.Set contributors = _map.get(_root);
if (contributors == null) {
contributors = new java.util.LinkedHashSet();
_map.put((ASTNode) _root, contributors);
}
contributors.add(this);
}
// @declaredat /home/jesper/git/extendj/java5/frontend/Annotations.jrag:496
if (decl().isDeprecated()
&& !withinDeprecatedAnnotation()
&& hostType().topLevelType() != decl().hostType().topLevelType()
&& !withinSuppressWarnings("deprecation")) {
{
java.util.Set contributors = _map.get(_root);
if (contributors == null) {
contributors = new java.util.LinkedHashSet();
_map.put((ASTNode) _root, contributors);
}
contributors.add(this);
}
}
super.collect_contributors_CompilationUnit_problems(_root, _map);
}
/** @apilevel internal */
protected void collect_contributors_TypeDecl_accessors(CompilationUnit _root, java.util.Map> _map) {
// @declaredat /home/jesper/git/extendj/java4/backend/GenerateClassfile.jrag:380
if (requiresAccessor()) {
{
TypeDecl target = (TypeDecl) (methodQualifierType());
java.util.Set contributors = _map.get(target);
if (contributors == null) {
contributors = new java.util.LinkedHashSet();
_map.put((ASTNode) target, contributors);
}
contributors.add(this);
}
}
super.collect_contributors_TypeDecl_accessors(_root, _map);
}
/** @apilevel internal */
protected void collect_contributors_TypeDecl_nestedTypes(CompilationUnit _root, java.util.Map> _map) {
{
if (transformed() != this) {
transformed().collect_contributors_TypeDecl_nestedTypes(_root, _map);
} else {
super.collect_contributors_TypeDecl_nestedTypes(_root, _map);
}
}
}
/** @apilevel internal */
protected void contributeTo_CompilationUnit_problems(LinkedList collection) {
super.contributeTo_CompilationUnit_problems(collection);
for (Problem value : typeHierarchyProblems()) {
collection.add(value);
}
for (Problem value : exceptionHandlingProblems()) {
collection.add(value);
}
for (Problem value : typeProblems()) {
collection.add(value);
}
if (decl().isDeprecated()
&& !withinDeprecatedAnnotation()
&& hostType().topLevelType() != decl().hostType().topLevelType()
&& !withinSuppressWarnings("deprecation")) {
collection.add(warning(decl().signature() + " in " + decl().hostType().typeName() + " has been deprecated"));
}
}
/** @apilevel internal */
protected void contributeTo_TypeDecl_accessors(HashSet collection) {
super.contributeTo_TypeDecl_accessors(collection);
if (requiresAccessor()) {
collection.add(methodQualifierType().methodAccessor(decl()));
}
}
}