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 ArrayCreationExpr extends PrimaryExpr implements Cloneable {
public void flushCache() {
super.flushCache();
type_computed = false;
type_value = null;
numArrays_computed = false;
}
public void flushCollectionCache() {
super.flushCollectionCache();
}
@SuppressWarnings({"unchecked", "cast"}) public ArrayCreationExpr clone() throws CloneNotSupportedException {
ArrayCreationExpr node = (ArrayCreationExpr)super.clone();
node.type_computed = false;
node.type_value = null;
node.numArrays_computed = false;
node.in$Circle(false);
node.is$Final(false);
return node;
}
@SuppressWarnings({"unchecked", "cast"}) public ArrayCreationExpr copy() {
try {
ArrayCreationExpr node = (ArrayCreationExpr)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 ArrayCreationExpr fullCopy() {
ArrayCreationExpr res = (ArrayCreationExpr)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 PrettyPrint.jadd at line 355
public void toString(StringBuffer s) {
s.append("new ");
getTypeAccess().toString(s);
if(hasArrayInit()) {
getArrayInit().toString(s);
}
}
// Declared in Expressions.jrag at line 633
public soot.Value eval(Body b) {
if(hasArrayInit()) {
return getArrayInit().eval(b);
}
else {
ArrayList list = new ArrayList();
getTypeAccess().addArraySize(b, list);
if(numArrays() == 1) {
soot.Value size = (soot.Value)list.get(0);
return b.newNewArrayExpr(
type().componentType().getSootType(),
asImmediate(b, size),
this
);
}
else {
return b.newNewMultiArrayExpr(
(soot.ArrayType)type().getSootType(),
list,
this
);
}
}
}
// Declared in java.ast at line 3
// Declared in java.ast line 136
public ArrayCreationExpr() {
super();
setChild(new Opt(), 1);
}
// Declared in java.ast at line 11
// Declared in java.ast line 136
public ArrayCreationExpr(Access p0, Opt<ArrayInit> p1) {
setChild(p0, 0);
setChild(p1, 1);
}
// Declared in java.ast at line 16
protected int numChildren() {
return 2;
}
// Declared in java.ast at line 19
public boolean mayHaveRewrite() {
return false;
}
// Declared in java.ast at line 2
// Declared in java.ast line 136
public void setTypeAccess(Access node) {
setChild(node, 0);
}
// Declared in java.ast at line 5
public Access getTypeAccess() {
return (Access)getChild(0);
}
// Declared in java.ast at line 9
public Access getTypeAccessNoTransform() {
return (Access)getChildNoTransform(0);
}
// Declared in java.ast at line 2
// Declared in java.ast line 136
public void setArrayInitOpt(Opt<ArrayInit> opt) {
setChild(opt, 1);
}
// Declared in java.ast at line 6
public boolean hasArrayInit() {
return getArrayInitOpt().getNumChild() != 0;
}
// Declared in java.ast at line 10
@SuppressWarnings({"unchecked", "cast"}) public ArrayInit getArrayInit() {
return (ArrayInit)getArrayInitOpt().getChild(0);
}
// Declared in java.ast at line 14
public void setArrayInit(ArrayInit node) {
getArrayInitOpt().setChild(node, 0);
}
// Declared in java.ast at line 17
@SuppressWarnings({"unchecked", "cast"}) public Opt<ArrayInit> getArrayInitOpt() {
return (Opt<ArrayInit>)getChild(1);
}
// Declared in java.ast at line 21
@SuppressWarnings({"unchecked", "cast"}) public Opt<ArrayInit> getArrayInitOptNoTransform() {
return (Opt<ArrayInit>)getChildNoTransform(1);
}
// Declared in DefiniteAssignment.jrag at line 433
@SuppressWarnings({"unchecked", "cast"}) public boolean isDAafterCreation(Variable v) {
ASTNode$State state = state();
boolean isDAafterCreation_Variable_value = isDAafterCreation_compute(v);
return isDAafterCreation_Variable_value;
}
private boolean isDAafterCreation_compute(Variable v) { return getTypeAccess().isDAafter(v); }
// Declared in DefiniteAssignment.jrag at line 434
@SuppressWarnings({"unchecked", "cast"}) public boolean isDAafter(Variable v) {
ASTNode$State state = state();
boolean isDAafter_Variable_value = isDAafter_compute(v);
return isDAafter_Variable_value;
}
private boolean isDAafter_compute(Variable v) { return hasArrayInit() ? getArrayInit().isDAafter(v) : isDAafterCreation(v); }
// Declared in DefiniteAssignment.jrag at line 864
@SuppressWarnings({"unchecked", "cast"}) public boolean isDUafterCreation(Variable v) {
ASTNode$State state = state();
boolean isDUafterCreation_Variable_value = isDUafterCreation_compute(v);
return isDUafterCreation_Variable_value;
}
private boolean isDUafterCreation_compute(Variable v) { return getTypeAccess().isDUafter(v); }
// Declared in DefiniteAssignment.jrag at line 865
@SuppressWarnings({"unchecked", "cast"}) public boolean isDUafter(Variable v) {
ASTNode$State state = state();
boolean isDUafter_Variable_value = isDUafter_compute(v);
return isDUafter_Variable_value;
}
private boolean isDUafter_compute(Variable v) { return hasArrayInit() ? getArrayInit().isDUafter(v) : isDUafterCreation(v); }
protected boolean type_computed = false;
protected TypeDecl type_value;
// Declared in TypeAnalysis.jrag at line 312
@SuppressWarnings({"unchecked", "cast"}) public TypeDecl type() {
if(type_computed) {
return type_value;
}
ASTNode$State state = state();
int num = state.boundariesCrossed;
boolean isFinal = this.is$Final();
type_value = type_compute();
if(isFinal && num == state().boundariesCrossed)
type_computed = true;
return type_value;
}
private TypeDecl type_compute() { return getTypeAccess().type(); }
protected boolean numArrays_computed = false;
protected int numArrays_value;
// Declared in InnerClasses.jrag at line 69
@SuppressWarnings({"unchecked", "cast"}) public int numArrays() {
if(numArrays_computed) {
return numArrays_value;
}
ASTNode$State state = state();
int num = state.boundariesCrossed;
boolean isFinal = this.is$Final();
numArrays_value = numArrays_compute();
if(isFinal && num == state().boundariesCrossed)
numArrays_computed = true;
return numArrays_value;
}
private int numArrays_compute() {
int i = type().dimension();
Access a = getTypeAccess();
while(a instanceof ArrayTypeAccess && !(a instanceof ArrayTypeWithSizeAccess)) {
i--;
a = ((ArrayTypeAccess)a).getAccess();
}
return i;
}
// Declared in DefiniteAssignment.jrag at line 435
public boolean Define_boolean_isDAbefore(ASTNode caller, ASTNode child, Variable v) {
if(caller == getArrayInitOptNoTransform()) {
return isDAafterCreation(v);
}
return getParent().Define_boolean_isDAbefore(this, caller, v);
}
// Declared in DefiniteAssignment.jrag at line 867
public boolean Define_boolean_isDUbefore(ASTNode caller, ASTNode child, Variable v) {
if(caller == getArrayInitOptNoTransform()) {
return isDUafterCreation(v);
}
return getParent().Define_boolean_isDUbefore(this, caller, v);
}
// Declared in SyntacticClassification.jrag at line 87
public NameType Define_NameType_nameType(ASTNode caller, ASTNode child) {
if(caller == getTypeAccessNoTransform()) {
return NameType.TYPE_NAME;
}
return getParent().Define_NameType_nameType(this, caller);
}
// Declared in TypeAnalysis.jrag at line 262
public TypeDecl Define_TypeDecl_declType(ASTNode caller, ASTNode child) {
if(caller == getArrayInitOptNoTransform()) {
return type();
}
return getParent().Define_TypeDecl_declType(this, caller);
}
// Declared in InnerClasses.jrag at line 63
public TypeDecl Define_TypeDecl_expectedType(ASTNode caller, ASTNode child) {
if(caller == getArrayInitOptNoTransform()) {
return type().componentType();
}
return getParent().Define_TypeDecl_expectedType(this, caller);
}
public ASTNode rewriteTo() {
return super.rewriteTo();
}
}