AbstractStaticInvokeExpr(SootMethodRef methodRef, List args) { super.methodRef = methodRef; super.argBoxes = new ArrayList(); for (int i = 0; i < args.size(); i++) this.argBoxes.add(Jimple.v().newImmediateBox((Value) args.get(i))); }
public void outALookupswitchStatement(ALookupswitchStatement node) { List lookupValues = new ArrayList(); List targets = new ArrayList(); UnitBox defaultTarget = null; if (node.getCaseStmt() != null) { int size = node.getCaseStmt().size(); for (int i = 0; i < size; i++) { Object valueTargetPair = mProductions.removeLast(); if (valueTargetPair instanceof UnitBox) { if (defaultTarget != null) throw new RuntimeException("error: can't ;have more than 1 default stmt"); defaultTarget = (UnitBox) valueTargetPair; } else { Object[] pair = (Object[]) valueTargetPair; lookupValues.add(0, pair[0]); targets.add(0, pair[1]); } } } else { throw new RuntimeException("error: switch stmt has no case stmts"); } Value key = (Value) mProductions.removeLast(); Unit switchStmt = Jimple.v().newLookupSwitchStmt(key, lookupValues, targets, defaultTarget); mProductions.addLast(switchStmt); }
public List getUseBoxes() { List useBoxes = new ArrayList(); useBoxes.addAll(opBox.getValue().getUseBoxes()); useBoxes.add(opBox); return useBoxes; }
private void addBoxToPatch(String aLabelName, UnitBox aUnitBox) { List patchList = (List) mLabelToPatchList.get(aLabelName); if (patchList == null) { patchList = new ArrayList(); mLabelToPatchList.put(aLabelName, patchList); } patchList.add(aUnitBox); }
public List getUseBoxes() { List list = new ArrayList(); for (int i = 0; i < argBoxes.size(); i++) { list.addAll(getArg(i).getUseBoxes()); list.add(getArgBox(i)); } return list; }
public void outADeclaration(ADeclaration node) { List localNameList = (List) mProductions.removeLast(); Type type = (Type) mProductions.removeLast(); Iterator it = localNameList.iterator(); List localList = new ArrayList(); while (it.hasNext()) { Local l = Jimple.v().newLocal((String) it.next(), type); mLocals.put(l.getName(), l); localList.add(l); } mProductions.addLast(localList); }
/* throws_clause = throws class_name_list; */ public void outAThrowsClause(AThrowsClause node) { List l = (List) mProductions.removeLast(); Iterator it = l.iterator(); List exceptionClasses = new ArrayList(l.size()); while (it.hasNext()) { String className = (String) it.next(); exceptionClasses.add(mResolver.makeClassRef(className)); } mProductions.addLast(exceptionClasses); }
protected int processModifiers(List l) { int modifier = 0; Iterator it = l.iterator(); while (it.hasNext()) { Object t = it.next(); if (t instanceof AAbstractModifier) modifier |= Modifier.ABSTRACT; else if (t instanceof AFinalModifier) modifier |= Modifier.FINAL; else if (t instanceof ANativeModifier) modifier |= Modifier.NATIVE; else if (t instanceof APublicModifier) modifier |= Modifier.PUBLIC; else if (t instanceof AProtectedModifier) modifier |= Modifier.PROTECTED; else if (t instanceof APrivateModifier) modifier |= Modifier.PRIVATE; else if (t instanceof AStaticModifier) modifier |= Modifier.STATIC; else if (t instanceof ASynchronizedModifier) modifier |= Modifier.SYNCHRONIZED; else if (t instanceof ATransientModifier) modifier |= Modifier.TRANSIENT; else if (t instanceof AVolatileModifier) modifier |= Modifier.VOLATILE; else if (t instanceof AEnumModifier) modifier |= Modifier.ENUM; else if (t instanceof AAnnotationModifier) modifier |= Modifier.ANNOTATION; else throw new RuntimeException( "Impossible: modifier unknown - Have you added a new modifier and not updated this file?"); } return modifier; }
public void convertToBaf(JimpleToBafContext context, List<Unit> out) { Unit u = Baf.v().newLoadInst(getType(), context.getBafLocalOfJimpleLocal(this)); out.add(u); Iterator it = context.getCurrentUnit().getTags().iterator(); while (it.hasNext()) { u.addTag((Tag) it.next()); } }
public void convertToBaf(JimpleToBafContext context, List out) { Unit u = Baf.v().newStaticGetInst(fieldRef); out.add(u); Iterator it = context.getCurrentUnit().getTags().iterator(); while (it.hasNext()) { u.addTag((Tag) it.next()); } }
public void outAMultiNewExpr(AMultiNewExpr node) { LinkedList arrayDesc = node.getArrayDescriptor(); int descCnt = arrayDesc.size(); List sizes = new LinkedList(); Iterator it = arrayDesc.iterator(); while (it.hasNext()) { AArrayDescriptor o = (AArrayDescriptor) it.next(); if (o.getImmediate() != null) sizes.add(0, (Value) mProductions.removeLast()); else break; } Type type = (Type) mProductions.removeLast(); ArrayType arrayType = ArrayType.v(type, descCnt); mProductions.addLast(Jimple.v().newNewMultiArrayExpr(arrayType, sizes)); }
public void convertToBaf(JimpleToBafContext context, List<Unit> out) { ((ConvertToBaf) getOp()).convertToBaf(context, out); Unit u; out.add(u = Baf.v().newThrowInst()); Unit currentUnit = this; Iterator it = currentUnit.getTags().iterator(); while (it.hasNext()) { u.addTag((Tag) it.next()); } }
public void outAFile(AFile node) { // not not pop members; they have been taken care of. List implementsList = null; String superClass = null; String classType = null; if (node.getImplementsClause() != null) { implementsList = (List) mProductions.removeLast(); } if (node.getExtendsClause() != null) { superClass = (String) mProductions.removeLast(); } classType = (String) mProductions.removeLast(); int modifierCount = node.getModifier().size(); int modifierFlags = processModifiers(node.getModifier()); if (classType.equals("interface")) modifierFlags |= Modifier.INTERFACE; mSootClass.setModifiers(modifierFlags); if (superClass != null) { mSootClass.setSuperclass(mResolver.makeClassRef(superClass)); } if (implementsList != null) { Iterator implIt = implementsList.iterator(); while (implIt.hasNext()) { SootClass interfaceClass = mResolver.makeClassRef((String) implIt.next()); mSootClass.addInterface(interfaceClass); } } mProductions.addLast(mSootClass); }
public void outATableswitchStatement(ATableswitchStatement node) { List targets = new ArrayList(); UnitBox defaultTarget = null; int lowIndex = 0, highIndex = 0; if (node.getCaseStmt() != null) { int size = node.getCaseStmt().size(); for (int i = 0; i < size; i++) { Object valueTargetPair = mProductions.removeLast(); if (valueTargetPair instanceof UnitBox) { if (defaultTarget != null) throw new RuntimeException("error: can't ;have more than 1 default stmt"); defaultTarget = (UnitBox) valueTargetPair; } else { Object[] pair = (Object[]) valueTargetPair; if ((i == 0 && defaultTarget == null) || (i == 1 && defaultTarget != null)) highIndex = ((IntConstant) pair[0]).value; if (i == (size - 1)) lowIndex = ((IntConstant) pair[0]).value; targets.add(0, pair[1]); } } } else { throw new RuntimeException("error: switch stmt has no case stmts"); } Value key = (Value) mProductions.removeLast(); Unit switchStmt = Jimple.v().newTableSwitchStmt(key, lowIndex, highIndex, targets, defaultTarget); mProductions.addLast(switchStmt); }
public void convertToBaf(JimpleToBafContext context, List out) { for (int i = 0; i < argBoxes.size(); i++) { ((ConvertToBaf) (getArg(i))).convertToBaf(context, out); } Unit u; out.add(u = Baf.v().newStaticInvokeInst(methodRef)); Unit currentUnit = context.getCurrentUnit(); Iterator it = currentUnit.getTags().iterator(); while (it.hasNext()) { u.addTag((Tag) it.next()); } }
public void outAFullMethodBody(AFullMethodBody node) { Object catchClause = null; JimpleBody jBody = Jimple.v().newBody(); if (node.getCatchClause() != null) { int size = node.getCatchClause().size(); for (int i = 0; i < size; i++) jBody.getTraps().addFirst((Trap) mProductions.removeLast()); } if (node.getStatement() != null) { int size = node.getStatement().size(); Unit lastStmt = null; for (int i = 0; i < size; i++) { Object o = mProductions.removeLast(); if (o instanceof Unit) { jBody.getUnits().addFirst(o); lastStmt = (Unit) o; } else if (o instanceof String) { if (lastStmt == null) throw new RuntimeException("impossible"); mLabelToStmtMap.put(o, lastStmt); } else throw new RuntimeException("impossible"); } } if (node.getDeclaration() != null) { int size = node.getDeclaration().size(); for (int i = 0; i < size; i++) { List localList = (List) mProductions.removeLast(); int listSize = localList.size(); for (int j = listSize - 1; j >= 0; j--) jBody.getLocals().addFirst(localList.get(j)); } } Iterator it = mLabelToPatchList.keySet().iterator(); while (it.hasNext()) { String label = (String) it.next(); Unit target = (Unit) mLabelToStmtMap.get(label); Iterator patchIt = ((List) mLabelToPatchList.get(label)).iterator(); while (patchIt.hasNext()) { UnitBox box = (UnitBox) patchIt.next(); box.setUnit(target); } } /* Iterator it = mLabelToStmtMap.keySet().iterator(); while(it.hasNext()) { String label = (String) it.next(); Unit target = (Unit) mLabelToStmtMap.get(label); List l = (List) mLabelToPatchList.get(label); if(l != null) { Iterator patchIt = l.iterator(); while(patchIt.hasNext()) { UnitBox box = (UnitBox) patchIt.next(); box.setUnit(target); } } } */ mProductions.addLast(jBody); }
public void outAMultiLocalNameList(AMultiLocalNameList node) { List l = (List) mProductions.removeLast(); l.add(0, (String) mProductions.removeLast()); mProductions.addLast(l); }
public void outASingleLocalNameList(ASingleLocalNameList node) { List l = new ArrayList(); l.add((String) mProductions.removeLast()); mProductions.addLast(l); }
public void outAMultiArgList(AMultiArgList node) { List l = (List) mProductions.removeLast(); l.add(0, (Value) mProductions.removeLast()); mProductions.addLast(l); }
/* arg_list = {single} immediate | {multi} immediate comma arg_list; */ public void outASingleArgList(ASingleArgList node) { List l = new ArrayList(); l.add((Value) mProductions.removeLast()); mProductions.addLast(l); }
public void outAMultiParameterList(AMultiParameterList node) { List l = (List) mProductions.removeLast(); l.add(0, (Type) mProductions.removeLast()); mProductions.addLast(l); }
public void outASingleParameterList(ASingleParameterList node) { List l = new ArrayList(); l.add((Type) mProductions.removeLast()); mProductions.addLast(l); }