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package sun.tools.tree;

import sun.tools.java.*;

WARNING: The contents of this source file are not part of any supported API. Code that depends on them does so at its own risk: they are subject to change or removal without notice.
/** * WARNING: The contents of this source file are not part of any * supported API. Code that depends on them does so at its own risk: * they are subject to change or removal without notice. */
public class BinaryShiftExpression extends BinaryExpression {
constructor
/** * constructor */
public BinaryShiftExpression(int op, long where, Expression left, Expression right) { super(op, where, left.type, left, right); }
Evaluate the expression
/** * Evaluate the expression */
Expression eval() { // The eval code in BinaryExpression.java only works correctly // for arithmetic expressions. For shift expressions, we get cases // where the left and right operand may legitimately be of mixed // types (long and int). This is a fix for 4082814. if (left.op == LONGVAL && right.op == INTVAL) { return eval(((LongExpression)left).value, ((IntExpression)right).value); } // Delegate the rest of the cases to our parent, so as to minimize // impact on existing behavior. return super.eval(); }
Select the type
/** * Select the type */
void selectType(Environment env, Context ctx, int tm) { if (left.type == Type.tLong) { type = Type.tLong; } else if (left.type.inMask(TM_INTEGER)) { type = Type.tInt; left = convert(env, ctx, type, left); } else { type = Type.tError; } if (right.type.inMask(TM_INTEGER)) { right = new ConvertExpression(where, Type.tInt, right); } else { right = convert(env, ctx, Type.tInt, right); } } }