package LBJ2.IR;
import java.util.Iterator;
import LBJ2.Pass;
/**
* Currently, this is just a wrapper class for <code>LinkedList</code>. The
* code that uses it looks a little cleaner when casts are all taken care of
* automatically.
*
* @author Nick Rizzolo
**/
public class StatementList extends List
{
/** Default constructor. */
public StatementList() { super(-1, -1, " "); }
/**
* Initializing constructor.
*
* @param line The line on which the source code represented by this
* node is found.
* @param byteOffset The byte offset from the beginning of the source file
* at which the source code represented by this node is
* found.
**/
public StatementList(int line, int byteOffset) {
super(line, byteOffset, " ");
}
/**
* Initializing constructor. Requires its argument to be
* non-<code>null</code>.
*
* @param s A single <code>Statement</code> with which to initialize this
* list.
**/
public StatementList(Statement s) {
super(s.line, s.byteOffset, " ");
list.add(s);
}
/**
* Adds another <code>Statement</code> to the end of the list.
*
* @param s A reference to the <code>Statement</code> to be added.
**/
public void add(Statement s) { list.add(s); }
/**
* Adds all the <code>Statement</code>s in another
* <code>StatementList</code> to the end of this
* <code>StatementList</code>.
*
* @param s The list to be added.
**/
public void addAll(StatementList s) { list.addAll(s.list); }
/**
* Transforms the list into an array of statements.
*
* @return An array of statements containing references to every statement
* in the list.
**/
public Statement[] toArray() {
return (Statement[]) list.toArray(new Statement[list.size()]);
}
/**
* Returns an iterator used specifically to access the elements of this
* list.
*
* @return An iterator used specifically to access the elements of this
* list.
**/
public StatementListIterator listIterator() {
return new StatementListIterator();
}
/**
* Returns an iterator used to successively access the children of this
* node.
*
* @return An iterator used to successively access the children of this
* node.
**/
public ASTNodeIterator iterator() { return listIterator(); }
/**
* Creates a new object with the same primitive data, and recursively
* creates new member data objects as well.
*
* @return The clone node.
**/
public Object clone() {
StatementList clone = new StatementList();
for (Iterator i = list.iterator(); i.hasNext(); )
clone.list.add(((Statement) i.next()).clone());
return clone;
}
/**
* Ensures that the correct <code>run()</code> method is called for this
* type of node.
*
* @param pass The pass whose <code>run()</code> method should be called.
**/
public void runPass(Pass pass) { pass.run(this); }
/**
* Used to iterate though the children of a list of AST nodes. The entire
* interface of <code>java.util.ListIterator</code> is exposed through this
* class.
*
* @author Nick Rizzolo
**/
public class StatementListIterator extends NodeListIterator
{
/**
* Returns the next AST node in the list. This method may be called
* repeatedly to iterate through the list, or intermixed with calls to
* <code>previous()</code> to go back and forth. (Note that alternating
* calls to <code>next()</code> and <code>previous()</code> will return
* the same element repeatedly.)
*
* @return The next AST node in the list.
**/
public Statement nextItem() { return (Statement) I.next(); }
/**
* Returns the previous element in the list. This method may be called
* repeatedly to iterate through the list backwards, or intermixed with
* calls to next to go back and forth. (Note that alternating calls to
* next and previous will return the same element repeatedly.)
*
* @return The previous AST node in the list.
**/
public Statement previousItem() { return (Statement) I.previous(); }
}
}