package soot.JastAddJ;
import java.util.HashSet;import java.util.LinkedHashSet;import java.io.File;import java.util.*;import beaver.*;import java.util.ArrayList;import java.util.zip.*;import java.io.*;import java.io.FileNotFoundException;import java.util.Collection;import soot.*;import soot.util.*;import soot.jimple.*;import soot.coffi.ClassFile;import soot.coffi.method_info;import soot.coffi.CONSTANT_Utf8_info;import soot.tagkit.SourceFileTag;import soot.coffi.CoffiMethodSource;
public class ArrayDecl extends ClassDecl implements Cloneable {
public void flushCache() {
super.flushCache();
accessibleFrom_TypeDecl_values = null;
dimension_computed = false;
elementType_computed = false;
elementType_value = null;
fullName_computed = false;
fullName_value = null;
typeName_computed = false;
typeName_value = null;
castingConversionTo_TypeDecl_values = null;
instanceOf_TypeDecl_values = null;
involvesTypeParameters_visited = -1;
involvesTypeParameters_computed = false;
involvesTypeParameters_initialized = false;
erasure_computed = false;
erasure_value = null;
usesTypeVariable_visited = -1;
usesTypeVariable_computed = false;
usesTypeVariable_initialized = false;
subtype_TypeDecl_values = null;
jvmName_computed = false;
jvmName_value = null;
getSootClassDecl_computed = false;
getSootClassDecl_value = null;
getSootType_computed = false;
getSootType_value = null;
}
public void flushCollectionCache() {
super.flushCollectionCache();
}
@SuppressWarnings({"unchecked", "cast"}) public ArrayDecl clone() throws CloneNotSupportedException {
ArrayDecl node = (ArrayDecl)super.clone();
node.accessibleFrom_TypeDecl_values = null;
node.dimension_computed = false;
node.elementType_computed = false;
node.elementType_value = null;
node.fullName_computed = false;
node.fullName_value = null;
node.typeName_computed = false;
node.typeName_value = null;
node.castingConversionTo_TypeDecl_values = null;
node.instanceOf_TypeDecl_values = null;
node.involvesTypeParameters_visited = -1;
node.involvesTypeParameters_computed = false;
node.involvesTypeParameters_initialized = false;
node.erasure_computed = false;
node.erasure_value = null;
node.usesTypeVariable_visited = -1;
node.usesTypeVariable_computed = false;
node.usesTypeVariable_initialized = false;
node.subtype_TypeDecl_values = null;
node.jvmName_computed = false;
node.jvmName_value = null;
node.getSootClassDecl_computed = false;
node.getSootClassDecl_value = null;
node.getSootType_computed = false;
node.getSootType_value = null;
node.in$Circle(false);
node.is$Final(false);
return node;
}
@SuppressWarnings({"unchecked", "cast"}) public ArrayDecl copy() {
try {
ArrayDecl node = (ArrayDecl)clone();
if(children != null) node.children = (ASTNode[])children.clone();
return node;
} catch (CloneNotSupportedException e) {
}
System.err.println("Error: Could not clone node of type " + getClass().getName() + "!");
return null;
}
@SuppressWarnings({"unchecked", "cast"}) public ArrayDecl fullCopy() {
ArrayDecl res = (ArrayDecl)copy();
for(int i = 0; i < getNumChildNoTransform(); i++) {
ASTNode node = getChildNoTransform(i);
if(node != null) node = node.fullCopy();
res.setChild(node, i);
}
return res;
}
// Declared in Arrays.jrag at line 59
public Access createQualifiedAccess() {
return new ArrayTypeAccess(componentType().createQualifiedAccess());
}
// Declared in Generics.jrag at line 733
public Access substitute(Parameterization parTypeDecl) {
return new ArrayTypeAccess(componentType().substitute(parTypeDecl));
}
// Declared in Generics.jrag at line 769
public Access substituteReturnType(Parameterization parTypeDecl) {
return new ArrayTypeAccess(componentType().substituteReturnType(parTypeDecl));
}
// Declared in java.ast at line 3
// Declared in java.ast line 65
public ArrayDecl() {
super();
setChild(new Opt(), 1);
setChild(new List(), 2);
setChild(new List(), 3);
}
// Declared in java.ast at line 13
// Declared in java.ast line 65
public ArrayDecl(Modifiers p0, String p1, Opt<Access> p2, List<Access> p3, List<BodyDecl> p4) {
setChild(p0, 0);
setID(p1);
setChild(p2, 1);
setChild(p3, 2);
setChild(p4, 3);
}
// Declared in java.ast at line 22
// Declared in java.ast line 65
public ArrayDecl(Modifiers p0, beaver.Symbol p1, Opt<Access> p2, List<Access> p3, List<BodyDecl> p4) {
setChild(p0, 0);
setID(p1);
setChild(p2, 1);
setChild(p3, 2);
setChild(p4, 3);
}
// Declared in java.ast at line 30
protected int numChildren() {
return 4;
}
// Declared in java.ast at line 33
public boolean mayHaveRewrite() {
return false;
}
// Declared in java.ast at line 2
// Declared in java.ast line 63
public void setModifiers(Modifiers node) {
setChild(node, 0);
}
// Declared in java.ast at line 5
public Modifiers getModifiers() {
return (Modifiers)getChild(0);
}
// Declared in java.ast at line 9
public Modifiers getModifiersNoTransform() {
return (Modifiers)getChildNoTransform(0);
}
// Declared in java.ast at line 2
// Declared in java.ast line 63
public void setID(String value) {
tokenString_ID = value;
}
// Declared in java.ast at line 5
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();
}
// Declared in java.ast at line 12
public String getID() {
return tokenString_ID != null ? tokenString_ID : "";
}
// Declared in java.ast at line 2
// Declared in java.ast line 63
public void setSuperClassAccessOpt(Opt<Access> opt) {
setChild(opt, 1);
}
// Declared in java.ast at line 6
public boolean hasSuperClassAccess() {
return getSuperClassAccessOpt().getNumChild() != 0;
}
// Declared in java.ast at line 10
@SuppressWarnings({"unchecked", "cast"}) public Access getSuperClassAccess() {
return (Access)getSuperClassAccessOpt().getChild(0);
}
// Declared in java.ast at line 14
public void setSuperClassAccess(Access node) {
getSuperClassAccessOpt().setChild(node, 0);
}
// Declared in java.ast at line 17
@SuppressWarnings({"unchecked", "cast"}) public Opt<Access> getSuperClassAccessOpt() {
return (Opt<Access>)getChild(1);
}
// Declared in java.ast at line 21
@SuppressWarnings({"unchecked", "cast"}) public Opt<Access> getSuperClassAccessOptNoTransform() {
return (Opt<Access>)getChildNoTransform(1);
}
// Declared in java.ast at line 2
// Declared in java.ast line 63
public void setImplementsList(List<Access> list) {
setChild(list, 2);
}
// Declared in java.ast at line 6
public int getNumImplements() {
return getImplementsList().getNumChild();
}
// Declared in java.ast at line 10
@SuppressWarnings({"unchecked", "cast"}) public Access getImplements(int i) {
return (Access)getImplementsList().getChild(i);
}
// Declared in java.ast at line 14
public void addImplements(Access node) {
List<Access> list = (parent == null || state == null) ? getImplementsListNoTransform() : getImplementsList();
list.addChild(node);
}
// Declared in java.ast at line 19
public void addImplementsNoTransform(Access node) {
List<Access> list = getImplementsListNoTransform();
list.addChild(node);
}
// Declared in java.ast at line 24
public void setImplements(Access node, int i) {
List<Access> list = getImplementsList();
list.setChild(node, i);
}
// Declared in java.ast at line 28
public List<Access> getImplementss() {
return getImplementsList();
}
// Declared in java.ast at line 31
public List<Access> getImplementssNoTransform() {
return getImplementsListNoTransform();
}
// Declared in java.ast at line 35
@SuppressWarnings({"unchecked", "cast"}) public List<Access> getImplementsList() {
List<Access> list = (List<Access>)getChild(2);
list.getNumChild();
return list;
}
// Declared in java.ast at line 41
@SuppressWarnings({"unchecked", "cast"}) public List<Access> getImplementsListNoTransform() {
return (List<Access>)getChildNoTransform(2);
}
// Declared in java.ast at line 2
// Declared in java.ast line 63
public void setBodyDeclList(List<BodyDecl> list) {
setChild(list, 3);
}
// Declared in java.ast at line 6
public int getNumBodyDecl() {
return getBodyDeclList().getNumChild();
}
// Declared in java.ast at line 10
@SuppressWarnings({"unchecked", "cast"}) public BodyDecl getBodyDecl(int i) {
return (BodyDecl)getBodyDeclList().getChild(i);
}
// Declared in java.ast at line 14
public void addBodyDecl(BodyDecl node) {
List<BodyDecl> list = (parent == null || state == null) ? getBodyDeclListNoTransform() : getBodyDeclList();
list.addChild(node);
}
// Declared in java.ast at line 19
public void addBodyDeclNoTransform(BodyDecl node) {
List<BodyDecl> list = getBodyDeclListNoTransform();
list.addChild(node);
}
// Declared in java.ast at line 24
public void setBodyDecl(BodyDecl node, int i) {
List<BodyDecl> list = getBodyDeclList();
list.setChild(node, i);
}
// Declared in java.ast at line 28
public List<BodyDecl> getBodyDecls() {
return getBodyDeclList();
}
// Declared in java.ast at line 31
public List<BodyDecl> getBodyDeclsNoTransform() {
return getBodyDeclListNoTransform();
}
// Declared in java.ast at line 35
@SuppressWarnings({"unchecked", "cast"}) public List<BodyDecl> getBodyDeclList() {
List<BodyDecl> list = (List<BodyDecl>)getChild(3);
list.getNumChild();
return list;
}
// Declared in java.ast at line 41
@SuppressWarnings({"unchecked", "cast"}) public List<BodyDecl> getBodyDeclListNoTransform() {
return (List<BodyDecl>)getChildNoTransform(3);
}
// Declared in TypeAnalysis.jrag at line 120
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);
}
// Declared in AccessControl.jrag at line 13
@SuppressWarnings({"unchecked", "cast"}) public boolean accessibleFrom(TypeDecl type) {
Object _parameters = type;
if(accessibleFrom_TypeDecl_values == null) accessibleFrom_TypeDecl_values = new java.util.HashMap(4);
if(accessibleFrom_TypeDecl_values.containsKey(_parameters)) {
return ((Boolean)accessibleFrom_TypeDecl_values.get(_parameters)).booleanValue();
}
ASTNode$State state = state();
int num = state.boundariesCrossed;
boolean isFinal = this.is$Final();
boolean accessibleFrom_TypeDecl_value = accessibleFrom_compute(type);
if(isFinal && num == state().boundariesCrossed)
accessibleFrom_TypeDecl_values.put(_parameters, Boolean.valueOf(accessibleFrom_TypeDecl_value));
return accessibleFrom_TypeDecl_value;
}
private boolean accessibleFrom_compute(TypeDecl type) { return elementType().accessibleFrom(type); }
// Declared in Arrays.jrag at line 12
@SuppressWarnings({"unchecked", "cast"}) public int dimension() {
if(dimension_computed) {
return dimension_value;
}
ASTNode$State state = state();
int num = state.boundariesCrossed;
boolean isFinal = this.is$Final();
dimension_value = dimension_compute();
if(isFinal && num == state().boundariesCrossed)
dimension_computed = true;
return dimension_value;
}
private int dimension_compute() { return componentType().dimension() + 1; }
// Declared in Arrays.jrag at line 16
@SuppressWarnings({"unchecked", "cast"}) public TypeDecl elementType() {
if(elementType_computed) {
return elementType_value;
}
ASTNode$State state = state();
int num = state.boundariesCrossed;
boolean isFinal = this.is$Final();
elementType_value = elementType_compute();
if(isFinal && num == state().boundariesCrossed)
elementType_computed = true;
return elementType_value;
}
private TypeDecl elementType_compute() { return componentType().elementType(); }
// Declared in Arrays.jrag at line 53
@SuppressWarnings({"unchecked", "cast"}) public String name() {
ASTNode$State state = state();
String name_value = name_compute();
return name_value;
}
private String name_compute() { return fullName(); }
// Declared in Arrays.jrag at line 54
@SuppressWarnings({"unchecked", "cast"}) public String fullName() {
if(fullName_computed) {
return fullName_value;
}
ASTNode$State state = state();
int num = state.boundariesCrossed;
boolean isFinal = this.is$Final();
fullName_value = fullName_compute();
if(isFinal && num == state().boundariesCrossed)
fullName_computed = true;
return fullName_value;
}
private String fullName_compute() { return getID(); }
// Declared in QualifiedNames.jrag at line 87
@SuppressWarnings({"unchecked", "cast"}) public String typeName() {
if(typeName_computed) {
return typeName_value;
}
ASTNode$State state = state();
int num = state.boundariesCrossed;
boolean isFinal = this.is$Final();
typeName_value = typeName_compute();
if(isFinal && num == state().boundariesCrossed)
typeName_computed = true;
return typeName_value;
}
private String typeName_compute() { return componentType().typeName() + "[]"; }
// Declared in Generics.jrag at line 76
@SuppressWarnings({"unchecked", "cast"}) public boolean castingConversionTo(TypeDecl type) {
Object _parameters = type;
if(castingConversionTo_TypeDecl_values == null) castingConversionTo_TypeDecl_values = new java.util.HashMap(4);
if(castingConversionTo_TypeDecl_values.containsKey(_parameters)) {
return ((Boolean)castingConversionTo_TypeDecl_values.get(_parameters)).booleanValue();
}
ASTNode$State state = state();
int num = state.boundariesCrossed;
boolean isFinal = this.is$Final();
boolean castingConversionTo_TypeDecl_value = castingConversionTo_compute(type);
if(isFinal && num == state().boundariesCrossed)
castingConversionTo_TypeDecl_values.put(_parameters, Boolean.valueOf(castingConversionTo_TypeDecl_value));
return castingConversionTo_TypeDecl_value;
}
private boolean castingConversionTo_compute(TypeDecl type) {
TypeDecl S = this;
TypeDecl T = type;
if(T instanceof TypeVariable) {
TypeVariable t = (TypeVariable)T;
if(!type.isReferenceType())
return false;
if(t.getNumTypeBound() == 0) return true;
for(int i = 0; i < t.getNumTypeBound(); i++) {
TypeDecl bound = t.getTypeBound(i).type();
if(bound.isObject() || bound == typeSerializable() || bound == typeCloneable())
return true;
if(bound.isTypeVariable() && castingConversionTo(bound))
return true;
if(bound.isArrayDecl() && castingConversionTo(bound))
return true;
}
return false;
}
else
return refined_TypeConversion_ArrayDecl_castingConversionTo_TypeDecl(type);
}
// Declared in TypeAnalysis.jrag at line 214
@SuppressWarnings({"unchecked", "cast"}) public boolean isArrayDecl() {
ASTNode$State state = state();
boolean isArrayDecl_value = isArrayDecl_compute();
return isArrayDecl_value;
}
private boolean isArrayDecl_compute() { return true; }
// Declared in GenericsSubtype.jrag at line 389
@SuppressWarnings({"unchecked", "cast"}) public boolean instanceOf(TypeDecl type) {
Object _parameters = type;
if(instanceOf_TypeDecl_values == null) instanceOf_TypeDecl_values = new java.util.HashMap(4);
if(instanceOf_TypeDecl_values.containsKey(_parameters)) {
return ((Boolean)instanceOf_TypeDecl_values.get(_parameters)).booleanValue();
}
ASTNode$State state = state();
int num = state.boundariesCrossed;
boolean isFinal = this.is$Final();
boolean instanceOf_TypeDecl_value = instanceOf_compute(type);
if(isFinal && num == state().boundariesCrossed)
instanceOf_TypeDecl_values.put(_parameters, Boolean.valueOf(instanceOf_TypeDecl_value));
return instanceOf_TypeDecl_value;
}
private boolean instanceOf_compute(TypeDecl type) { return subtype(type); }
// Declared in TypeAnalysis.jrag at line 469
@SuppressWarnings({"unchecked", "cast"}) public boolean isSupertypeOfArrayDecl(ArrayDecl type) {
ASTNode$State state = state();
boolean isSupertypeOfArrayDecl_ArrayDecl_value = isSupertypeOfArrayDecl_compute(type);
return isSupertypeOfArrayDecl_ArrayDecl_value;
}
private boolean isSupertypeOfArrayDecl_compute(ArrayDecl type) {
if(type.elementType().isPrimitive() && elementType().isPrimitive())
return type.dimension() == dimension() && type.elementType() == elementType();
return type.componentType().instanceOf(componentType());
}
// Declared in Annotations.jrag at line 133
@SuppressWarnings({"unchecked", "cast"}) public boolean isValidAnnotationMethodReturnType() {
ASTNode$State state = state();
boolean isValidAnnotationMethodReturnType_value = isValidAnnotationMethodReturnType_compute();
return isValidAnnotationMethodReturnType_value;
}
private boolean isValidAnnotationMethodReturnType_compute() { return componentType().isValidAnnotationMethodReturnType(); }
// Declared in Annotations.jrag at line 492
@SuppressWarnings({"unchecked", "cast"}) public boolean commensurateWith(ElementValue value) {
ASTNode$State state = state();
boolean commensurateWith_ElementValue_value = commensurateWith_compute(value);
return commensurateWith_ElementValue_value;
}
private boolean commensurateWith_compute(ElementValue value) { return value.commensurateWithArrayDecl(this); }
// Declared in GenericMethodsInference.jrag at line 17
@SuppressWarnings({"unchecked", "cast"}) public boolean involvesTypeParameters() {
if(involvesTypeParameters_computed) {
return involvesTypeParameters_value;
}
ASTNode$State state = state();
if (!involvesTypeParameters_initialized) {
involvesTypeParameters_initialized = true;
involvesTypeParameters_value = false;
}
if (!state.IN_CIRCLE) {
state.IN_CIRCLE = true;
int num = state.boundariesCrossed;
boolean isFinal = this.is$Final();
do {
involvesTypeParameters_visited = state.CIRCLE_INDEX;
state.CHANGE = false;
boolean new_involvesTypeParameters_value = involvesTypeParameters_compute();
if (new_involvesTypeParameters_value!=involvesTypeParameters_value)
state.CHANGE = true;
involvesTypeParameters_value = new_involvesTypeParameters_value;
state.CIRCLE_INDEX++;
} while (state.CHANGE);
if(isFinal && num == state().boundariesCrossed)
{
involvesTypeParameters_computed = true;
}
else {
state.RESET_CYCLE = true;
involvesTypeParameters_compute();
state.RESET_CYCLE = false;
involvesTypeParameters_computed = false;
involvesTypeParameters_initialized = false;
}
state.IN_CIRCLE = false;
return involvesTypeParameters_value;
}
if(involvesTypeParameters_visited != state.CIRCLE_INDEX) {
involvesTypeParameters_visited = state.CIRCLE_INDEX;
if (state.RESET_CYCLE) {
involvesTypeParameters_computed = false;
involvesTypeParameters_initialized = false;
involvesTypeParameters_visited = -1;
return involvesTypeParameters_value;
}
boolean new_involvesTypeParameters_value = involvesTypeParameters_compute();
if (new_involvesTypeParameters_value!=involvesTypeParameters_value)
state.CHANGE = true;
involvesTypeParameters_value = new_involvesTypeParameters_value;
return involvesTypeParameters_value;
}
return involvesTypeParameters_value;
}
private boolean involvesTypeParameters_compute() { return componentType().involvesTypeParameters(); }
// Declared in Generics.jrag at line 320
@SuppressWarnings({"unchecked", "cast"}) public TypeDecl erasure() {
if(erasure_computed) {
return erasure_value;
}
ASTNode$State state = state();
int num = state.boundariesCrossed;
boolean isFinal = this.is$Final();
erasure_value = erasure_compute();
if(isFinal && num == state().boundariesCrossed)
erasure_computed = true;
return erasure_value;
}
private TypeDecl erasure_compute() { return componentType().erasure().arrayType(); }
// Declared in Generics.jrag at line 923
@SuppressWarnings({"unchecked", "cast"}) public boolean usesTypeVariable() {
if(usesTypeVariable_computed) {
return usesTypeVariable_value;
}
ASTNode$State state = state();
if (!usesTypeVariable_initialized) {
usesTypeVariable_initialized = true;
usesTypeVariable_value = false;
}
if (!state.IN_CIRCLE) {
state.IN_CIRCLE = true;
int num = state.boundariesCrossed;
boolean isFinal = this.is$Final();
do {
usesTypeVariable_visited = state.CIRCLE_INDEX;
state.CHANGE = false;
boolean new_usesTypeVariable_value = usesTypeVariable_compute();
if (new_usesTypeVariable_value!=usesTypeVariable_value)
state.CHANGE = true;
usesTypeVariable_value = new_usesTypeVariable_value;
state.CIRCLE_INDEX++;
} while (state.CHANGE);
if(isFinal && num == state().boundariesCrossed)
{
usesTypeVariable_computed = true;
}
else {
state.RESET_CYCLE = true;
usesTypeVariable_compute();
state.RESET_CYCLE = false;
usesTypeVariable_computed = false;
usesTypeVariable_initialized = false;
}
state.IN_CIRCLE = false;
return usesTypeVariable_value;
}
if(usesTypeVariable_visited != state.CIRCLE_INDEX) {
usesTypeVariable_visited = state.CIRCLE_INDEX;
if (state.RESET_CYCLE) {
usesTypeVariable_computed = false;
usesTypeVariable_initialized = false;
usesTypeVariable_visited = -1;
return usesTypeVariable_value;
}
boolean new_usesTypeVariable_value = usesTypeVariable_compute();
if (new_usesTypeVariable_value!=usesTypeVariable_value)
state.CHANGE = true;
usesTypeVariable_value = new_usesTypeVariable_value;
return usesTypeVariable_value;
}
return usesTypeVariable_value;
}
private boolean usesTypeVariable_compute() { return elementType().usesTypeVariable(); }
// Declared in GenericsSubtype.jrag at line 409
@SuppressWarnings({"unchecked", "cast"}) public boolean subtype(TypeDecl type) {
Object _parameters = type;
if(subtype_TypeDecl_values == null) subtype_TypeDecl_values = new java.util.HashMap(4);
ASTNode$State.CircularValue _value;
if(subtype_TypeDecl_values.containsKey(_parameters)) {
Object _o = subtype_TypeDecl_values.get(_parameters);
if(!(_o instanceof ASTNode$State.CircularValue)) {
return ((Boolean)_o).booleanValue();
}
else
_value = (ASTNode$State.CircularValue)_o;
}
else {
_value = new ASTNode$State.CircularValue();
subtype_TypeDecl_values.put(_parameters, _value);
_value.value = Boolean.valueOf(true);
}
ASTNode$State state = state();
if (!state.IN_CIRCLE) {
state.IN_CIRCLE = true;
int num = state.boundariesCrossed;
boolean isFinal = this.is$Final();
boolean new_subtype_TypeDecl_value;
do {
_value.visited = new Integer(state.CIRCLE_INDEX);
state.CHANGE = false;
new_subtype_TypeDecl_value = subtype_compute(type);
if (new_subtype_TypeDecl_value!=((Boolean)_value.value).booleanValue()) {
state.CHANGE = true;
_value.value = Boolean.valueOf(new_subtype_TypeDecl_value);
}
state.CIRCLE_INDEX++;
} while (state.CHANGE);
if(isFinal && num == state().boundariesCrossed)
{
subtype_TypeDecl_values.put(_parameters, new_subtype_TypeDecl_value);
}
else {
subtype_TypeDecl_values.remove(_parameters);
state.RESET_CYCLE = true;
subtype_compute(type);
state.RESET_CYCLE = false;
}
state.IN_CIRCLE = false;
return new_subtype_TypeDecl_value;
}
if(!new Integer(state.CIRCLE_INDEX).equals(_value.visited)) {
_value.visited = new Integer(state.CIRCLE_INDEX);
boolean new_subtype_TypeDecl_value = subtype_compute(type);
if (state.RESET_CYCLE) {
subtype_TypeDecl_values.remove(_parameters);
}
else if (new_subtype_TypeDecl_value!=((Boolean)_value.value).booleanValue()) {
state.CHANGE = true;
_value.value = new_subtype_TypeDecl_value;
}
return new_subtype_TypeDecl_value;
}
return ((Boolean)_value.value).booleanValue();
}
private boolean subtype_compute(TypeDecl type) { return type.supertypeArrayDecl(this); }
// Declared in GenericsSubtype.jrag at line 466
@SuppressWarnings({"unchecked", "cast"}) public boolean supertypeArrayDecl(ArrayDecl type) {
ASTNode$State state = state();
boolean supertypeArrayDecl_ArrayDecl_value = supertypeArrayDecl_compute(type);
return supertypeArrayDecl_ArrayDecl_value;
}
private boolean supertypeArrayDecl_compute(ArrayDecl type) {
if(type.elementType().isPrimitive() && elementType().isPrimitive())
return type.dimension() == dimension() && type.elementType() == elementType();
return type.componentType().subtype(componentType());
}
// Declared in Java2Rewrites.jrag at line 26
@SuppressWarnings({"unchecked", "cast"}) public String jvmName() {
if(jvmName_computed) {
return jvmName_value;
}
ASTNode$State state = state();
int num = state.boundariesCrossed;
boolean isFinal = this.is$Final();
jvmName_value = jvmName_compute();
if(isFinal && num == state().boundariesCrossed)
jvmName_computed = true;
return jvmName_value;
}
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();
}
// Declared in Java2Rewrites.jrag at line 61
@SuppressWarnings({"unchecked", "cast"}) public String referenceClassFieldName() {
ASTNode$State state = state();
String referenceClassFieldName_value = referenceClassFieldName_compute();
return referenceClassFieldName_value;
}
private String referenceClassFieldName_compute() { return "array" + jvmName().replace('[', '$').replace('.', '$').replace(';', ' ').trim(); }
// Declared in EmitJimple.jrag at line 44
@SuppressWarnings({"unchecked", "cast"}) public SootClass getSootClassDecl() {
if(getSootClassDecl_computed) {
return getSootClassDecl_value;
}
ASTNode$State state = state();
int num = state.boundariesCrossed;
boolean isFinal = this.is$Final();
getSootClassDecl_value = getSootClassDecl_compute();
if(isFinal && num == state().boundariesCrossed)
getSootClassDecl_computed = true;
return getSootClassDecl_value;
}
private SootClass getSootClassDecl_compute() { return typeObject().getSootClassDecl(); }
// Declared in EmitJimple.jrag at line 56
@SuppressWarnings({"unchecked", "cast"}) public Type getSootType() {
if(getSootType_computed) {
return getSootType_value;
}
ASTNode$State state = state();
int num = state.boundariesCrossed;
boolean isFinal = this.is$Final();
getSootType_value = getSootType_compute();
if(isFinal && num == state().boundariesCrossed)
getSootType_computed = true;
return getSootType_value;
}
private Type getSootType_compute() { return soot.ArrayType.v(elementType().getSootType(), dimension()); }
// Declared in TypeAnalysis.jrag at line 140
@SuppressWarnings({"unchecked", "cast"}) public TypeDecl typeSerializable() {
ASTNode$State state = state();
TypeDecl typeSerializable_value = getParent().Define_TypeDecl_typeSerializable(this, null);
return typeSerializable_value;
}
// Declared in TypeAnalysis.jrag at line 141
@SuppressWarnings({"unchecked", "cast"}) public TypeDecl typeCloneable() {
ASTNode$State state = state();
TypeDecl typeCloneable_value = getParent().Define_TypeDecl_typeCloneable(this, null);
return typeCloneable_value;
}
public ASTNode rewriteTo() {
return super.rewriteTo();
}
}