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397 lines
15 KiB
397 lines
15 KiB
/*
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* Expression (c) 1998 Jochen Hoenicke
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*
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* You may distribute under the terms of the GNU General Public License.
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*
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* IN NO EVENT SHALL JOCHEN HOENICKE BE LIABLE TO ANY PARTY FOR DIRECT,
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* INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES ARISING OUT OF
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* THE USE OF THIS SOFTWARE AND ITS DOCUMENTATION, EVEN IF JOCHEN HOENICKE
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* HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*
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* JOCHEN HOENICKE SPECIFICALLY DISCLAIMS ANY WARRANTIES, INCLUDING, BUT NOT
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* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
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* PARTICULAR PURPOSE. THE SOFTWARE PROVIDED HEREUNDER IS ON AN "AS IS"
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* BASIS, AND JOCHEN HOENICKE HAS NO OBLIGATION TO PROVIDE MAINTENANCE,
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* SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS.
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*
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* $Id$
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*/
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package jode;
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public class ComplexExpression extends Expression {
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Operator operator;
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Expression[] subExpressions;
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public ComplexExpression(Operator op, Expression[] sub) {
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super(Type.tUnknown);
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if (sub.length != op.getOperandCount())
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throw new AssertError ("Operand count mismatch: "+
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sub.length + " != " +
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op.getOperandCount());
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operator = op;
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operator.parent = this;
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subExpressions = sub;
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for (int i=0; i< subExpressions.length; i++)
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subExpressions[i].parent = this;
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updateType();
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}
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public int getOperandCount() {
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if (subExpressions.length == 0)
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return 0;
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else
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/* The only sub expression that may have non resolved
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* operands may be the first.
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*/
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return subExpressions[0].getOperandCount();
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}
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public Expression negate() {
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if (operator.getOperatorIndex() >= operator.COMPARE_OP &&
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operator.getOperatorIndex() < operator.COMPARE_OP+6) {
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operator.setOperatorIndex(operator.getOperatorIndex() ^ 1);
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return this;
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} else if (operator.getOperatorIndex() == operator.LOG_AND_OP ||
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operator.getOperatorIndex() == operator.LOG_OR_OP) {
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operator.setOperatorIndex(operator.getOperatorIndex() ^ 1);
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for (int i=0; i< subExpressions.length; i++) {
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subExpressions[i] = subExpressions[i].negate();
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subExpressions[i].parent = this;
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}
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return this;
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} else if (operator.operator == operator.LOG_NOT_OP) {
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return subExpressions[0];
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}
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Operator negop =
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new UnaryOperator(Type.tBoolean, Operator.LOG_NOT_OP);
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return new ComplexExpression(negop, new Expression[] { this });
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}
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/**
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* Checks if the given Expression (which should be a StoreInstruction)
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* can be combined into this expression.
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* @param e The store expression, must be of type void.
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* @return 1, if it can, 0, if no match was found and -1, if a
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* conflict was found. You may wish to check for >0.
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*/
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public int canCombine(Expression e) {
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if (e instanceof ComplexExpression
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&& e.getOperator() instanceof StoreInstruction) {
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ComplexExpression ce = (ComplexExpression) e;
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StoreInstruction store = (StoreInstruction) e.getOperator();
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if (store.matches(operator)) {
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for (int i=0; i < ce.subExpressions.length-1; i++) {
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if (!ce.subExpressions[i].equals(subExpressions[i]))
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return -1;
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}
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return 1;
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}
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for (int i=0; i < subExpressions.length; i++) {
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int can = subExpressions[i].canCombine(e);
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if (can != 0)
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return can;
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}
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}
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return 0;
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}
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/**
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* Combines the given Expression (which should be a StoreInstruction)
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* into this expression. You must only call this if
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* canCombine returns the value 1.
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* @param e The store expression.
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* @return The combined expression.
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*/
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public Expression combine(Expression e) {
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StoreInstruction store = (StoreInstruction) e.getOperator();
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if (store.matches(operator)) {
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store.makeNonVoid();
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e.type = store.getType();
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return e;
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}
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for (int i=0; i < subExpressions.length; i++) {
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Expression combined = subExpressions[i].combine(e);
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if (combined != null) {
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subExpressions[i] = combined;
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subExpressions[i].parent = this;
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return this;
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}
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}
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throw new AssertError("combine didn't succeed");
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}
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public Operator getOperator() {
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return operator;
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}
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public Expression[] getSubExpressions() {
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return subExpressions;
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}
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void updateSubTypes() {
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for (int i=0; i < subExpressions.length; i++) {
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if (i == 0 && operator instanceof ArrayStoreOperator) {
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/* No rule without exception:
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* We can always use tSubType, except for the
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* array operand of an array store instruction.
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*/
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subExpressions[i].setType(operator.getOperandType(i));
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} else
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subExpressions[i].setType
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(Type.tSubType(operator.getOperandType(i)));
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}
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}
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public void updateType() {
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if (subExpressions.length > 0) {
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Type types[] = new Type[subExpressions.length];
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while (true) {
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boolean changed = false;
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updateSubTypes();
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for (int i=0; i < types.length; i++) {
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if (i == 0 && operator instanceof ArrayStoreOperator) {
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/* No rule without exception:
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* We can always use tSuperType, except for the
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* array operand of an array store instruction.
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*/
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types[i] = subExpressions[i].getType();
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} else
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types[i] = Type.tSuperType
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(subExpressions[i].getType());
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types[i] =
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types[i].intersection(operator.getOperandType(i));
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if (types[i] != Type.tError
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&& !types[i].equals(operator.getOperandType(i))) {
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if (Decompiler.isTypeDebugging)
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System.err.println("change in "+this+": "
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+operator.getOperandType(i)
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+"->"+types[i]);
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changed = true;
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}
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}
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if (changed)
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operator.setOperandType(types);
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else
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break;
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}
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}
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setType(operator.getType());
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}
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public void setType(Type newType) {
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newType = type.intersection(newType);
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if (!newType.equals(type)) {
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type = newType;
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operator.setType(type);
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updateSubTypes();
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if (parent != null)
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parent.updateType();
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}
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}
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public boolean isVoid() {
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return operator.getType() == Type.tVoid;
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}
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public String toString() {
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String[] expr = new String[subExpressions.length];
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for (int i=0; i<subExpressions.length; i++) {
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expr[i] = subExpressions[i].
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toString(Decompiler.isTypeDebugging
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? 700 /* type cast priority */
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: operator.getOperandPriority(i));
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if (Decompiler.isTypeDebugging) {
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expr[i] = "("+
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(operator.getOperandType(i)
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.equals(subExpressions[i].getType())
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? "" : ""+subExpressions[i].getType()+"->")
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+ operator.getOperandType(i)+") "+expr[i];
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if (700 < operator.getOperandPriority(i))
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expr[i] = "(" + expr[i] + ")";
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}
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else if (subExpressions[i].getType() == Type.tError)
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expr[i] = "(/*type error */" + expr[i]+")";
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}
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return operator.toString(expr);
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}
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public boolean equals(Object o) {
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if (this == o)
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return true;
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if (!(o instanceof ComplexExpression))
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return false;
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ComplexExpression expr = (ComplexExpression) o;
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if (!operator.equals(expr.operator) ||
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subExpressions.length != expr.subExpressions.length)
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return false;
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for (int i=0; i<subExpressions.length; i++) {
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if (!subExpressions[i].equals(expr.subExpressions[i]))
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return false;
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}
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return true;
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}
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static Expression emptyString =
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new EmptyStringOperator();
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public Expression simplifyStringBuffer() {
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gnu.bytecode.CpoolRef field;
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if (operator instanceof InvokeOperator
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&& (((InvokeOperator)operator).getClassType()
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.equals(Type.tStringBuffer))
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&& !((InvokeOperator)operator).isStatic()
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&& (((InvokeOperator)operator).getMethodName().equals("append"))
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&& (((InvokeOperator)operator).getMethodType()
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.getArgumentTypes().length == 1)) {
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Expression e = subExpressions[0].simplifyStringBuffer();
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if (e == null)
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return null;
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if (e.getOperator() instanceof EmptyStringOperator &&
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subExpressions[1].getType().isOfType(Type.tString))
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return subExpressions[1];
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return new ComplexExpression
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(new StringAddOperator(), new Expression[]
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{ e, subExpressions[1] });
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}
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if (operator instanceof ConstructorOperator &&
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operator.getType().isOfType(Type.tStringBuffer)) {
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if (subExpressions.length == 0)
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return emptyString;
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else if (subExpressions.length == 1 &&
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subExpressions[0].getType().isOfType(Type.tString))
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return subExpressions[0];
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}
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return null;
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}
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public Expression simplifyString() {
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if (operator instanceof InvokeOperator) {
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InvokeOperator invoke = (InvokeOperator) operator;
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if (invoke.getMethodName().equals("toString")
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&& !invoke.isStatic()
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&& (invoke.getClassType().equals(Type.tStringBuffer))
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&& subExpressions.length == 1) {
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Expression simple = subExpressions[0].simplifyStringBuffer();
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if (simple != null)
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return simple;
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}
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else if (invoke.getMethodName().equals("valueOf")
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&& invoke.isStatic()
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&& invoke.getClassType().equals(Type.tString)
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&& subExpressions.length == 1) {
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if (subExpressions[0].getType().isOfType(Type.tString))
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return subExpressions[0];
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return new ComplexExpression
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(new StringAddOperator(), new Expression[]
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{ emptyString, subExpressions[0] });
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}
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/* The pizza way (pizza is the compiler of kaffe) */
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else if (invoke.getMethodName().equals("concat")
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&& !invoke.isStatic()
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&& invoke.getClassType().equals(Type.tString)) {
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Expression left = subExpressions[0].simplify();
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Expression right = subExpressions[1].simplify();
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if (right instanceof ComplexExpression
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&& right.getOperator() instanceof StringAddOperator
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&& (((ComplexExpression) right).subExpressions[0]
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== emptyString))
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right = ((ComplexExpression)right).subExpressions[1];
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return new ComplexExpression
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(new StringAddOperator(), new Expression[]
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{ left, right });
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}
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}
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return null;
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}
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public Expression simplify() {
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if (operator instanceof IfThenElseOperator &&
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operator.getType().isOfType(Type.tBoolean)) {
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if (subExpressions[1].getOperator() instanceof ConstOperator &&
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subExpressions[2].getOperator() instanceof ConstOperator) {
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ConstOperator c1 =
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(ConstOperator) subExpressions[1].getOperator();
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ConstOperator c2 =
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(ConstOperator) subExpressions[2].getOperator();
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if (c1.getValue().equals("1") &&
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c2.getValue().equals("0"))
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return subExpressions[0].simplify();
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if (c2.getValue().equals("1") &&
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c1.getValue().equals("0"))
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return subExpressions[0].negate().simplify();
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}
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}
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else if (operator instanceof StoreInstruction &&
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subExpressions[subExpressions.length-1]
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.getOperator() instanceof ConstOperator) {
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StoreInstruction store = (StoreInstruction) operator;
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ConstOperator one = (ConstOperator)
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subExpressions[subExpressions.length-1].getOperator();
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if ((operator.getOperatorIndex() ==
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operator.OPASSIGN_OP+operator.ADD_OP ||
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operator.getOperatorIndex() ==
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operator.OPASSIGN_OP+operator.NEG_OP) &&
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(one.getValue().equals("1"))) {
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int op = (operator.getOperatorIndex() ==
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operator.OPASSIGN_OP+operator.ADD_OP)
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? operator.INC_OP : operator.DEC_OP;
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Operator ppfixop = new PrePostFixOperator
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(store.getLValueType(), op, store, store.isVoid());
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if (subExpressions.length == 1)
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return ppfixop.simplify();
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operator = ppfixop;
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ppfixop.parent = this;
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}
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}
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else if (operator instanceof CompareUnaryOperator &&
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subExpressions[0].getOperator() instanceof CompareToIntOperator) {
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CompareBinaryOperator newOp = new CompareBinaryOperator
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(subExpressions[0].getOperator().getOperandType(0),
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operator.getOperatorIndex());
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if (subExpressions[0] instanceof ComplexExpression) {
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return new ComplexExpression
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(newOp,
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((ComplexExpression)subExpressions[0]).subExpressions).
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simplify();
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} else
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return newOp.simplify();
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}
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else if (operator instanceof CompareUnaryOperator &&
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operator.getOperandType(0).isOfType(Type.tBoolean)) {
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/* xx == false */
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if (operator.getOperatorIndex() == operator.EQUALS_OP)
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return subExpressions[0].negate().simplify();
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/* xx != false */
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if (operator.getOperatorIndex() == operator.NOTEQUALS_OP)
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return subExpressions[0].simplify();
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}
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else {
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Expression stringExpr = simplifyString();
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if (stringExpr != null)
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return stringExpr.simplify();
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}
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for (int i=0; i< subExpressions.length; i++) {
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subExpressions[i] = subExpressions[i].simplify();
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subExpressions[i].parent = this;
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}
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return this;
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}
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}
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