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package org.glassfish.pfl.basic.contain;
import java.util.List ;
import java.util.LinkedList ;
import java.util.ArrayList ;
import java.util.EmptyStackException ;
/** A stack with additional operations that support recording
* the current top of stack as a mark, and then later popping
* all items pushed since the last mark call.
*/
public final class MarkStack {
private List items ;
// The int on the marks list points to the first element on items that is part of the mark.
private List marks ;
public MarkStack() {
items = new ArrayList() ;
marks = new ArrayList() ;
}
public E push( E elem ) {
items.add( elem ) ;
return elem ;
}
/** Return the top element of the stack and remove it from the stack.
* @exception EmptyStackException is thrown if the stack is empty.
* @exception IllegalStateException if an attempt is made to pop
* past the top mark.
*/
public E pop() {
if (isEmpty()) {
throw new EmptyStackException();
}
if (marks.size() > 0) {
int topMark = marks.get( marks.size() - 1 ) ;
if (topMark == items.size()) {
throw new IllegalStateException("Cannot pop item past top mark");
}
}
E result = items.remove( items.size() - 1 ) ;
return result ;
}
/** Return true iff the stack is empty.
*/
public boolean isEmpty() {
if (marks.size() > 0) {
int topMark = marks.get( marks.size() - 1 ) ;
return topMark == items.size() ;
}
return items.isEmpty() ;
}
/** Return the top element of the stack. Does not change the stack.
* @exception EmptyStackException is thrown if the stack is empty.
*/
public E peek() {
if (isEmpty()) {
throw new EmptyStackException();
}
return items.get( items.size() - 1 ) ;
}
/** Record the current position in the stack for a
* subsequent popMark call. This allow marking the
* start of a related group of items on the stack
* that can be popped together later by popMark.
* Multiple mark calls are supported.
*/
public void mark() {
marks.add( items.size() ) ;
}
/** Return an ordered list of stack elements starting with
* the element that was on top of the stack when mark was
* called.
*/
public List popMark() {
// Use a LinkedList here because addFirst runs in
// constant time. The equivalent operation on an
// ArrayList is linear in the list size. Removing
// items from the middle of an ArrayList is also
// inefficient, because the tail must be copied.
LinkedList result = new LinkedList() ;
int topMark = marks.remove( marks.size() - 1 ) ;
while (items.size() > topMark) {
result.addFirst( items.remove( items.size() - 1 ) ) ;
}
return result ;
}
}
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