private String reconstructMostly( Vector stmt ) { StringBuffer buf = new StringBuffer(100); for ( ListIterator i = stmt.listIterator(); i.hasNext(); ) { buf.append( StatSpecTokens.SPACE ); buf.append( (String) i.next() ); } return buf.toString(); } private String getText( String fn ) throws FileNotFoundException {
private String reconstructMostly( Vector stmt ) { StringBuffer buf = new StringBuffer(100); for ( ListIterator i = stmt.listIterator(); i.hasNext(); ) { buf.append( TrimSpecTokens.SPACE ); buf.append( (String) i.next() ); } return buf.toString(); } private String getText( String fn ) throws FileNotFoundException {
Stack<Integer> stack = new Stack<Integer>(); stack.push(1); stack.push(2); stack.push(3); for (ListIterator<Integer> iterator = stack.listIterator(stack.size()); iterator.hasPrevious();) { Integer integer = iterator.previous(); System.out.println(integer); } // Output: 3 2 1
/** returns the subset of the list iterator that is the attribute value */ private ListIterator getNextAttributeValueIterator( ListIterator i ) { Vector valuetokens = getNextAttributeValue( i ); //log().finest( "getNextAttributeValueIterator returning " + valuetokens ); return valuetokens.size() == 0 ? null : valuetokens.listIterator(); } private Vector getNextAttributeValue( ListIterator i ) {
public void reset() { if (typeVector.size() < 1) { return; } final ListIterator<CellCntrMarkerVector> mit = typeVector.listIterator(); while (mit.hasNext()) { final CellCntrMarkerVector mv = mit.next(); mv.clear(); } if (ic != null) ic.repaint(); }
@Override public ListIterator listIterator(int paramInt) { if (_directAccess) { return super.listIterator(paramInt); } if (isDelayLoad()) { load(); } ListIterator localListIterator = super.listIterator(paramInt); return ProxyCollections.afterListIterator(this, paramInt, localListIterator); }
@Override public ListIterator listIterator() { if (_directAccess) { return super.listIterator(); } if (isDelayLoad()) { load(); } ListIterator localListIterator = super.listIterator(); return ProxyCollections.afterListIterator(this, localListIterator); }
@Override public ListIterator listIterator(int paramInt) { if (_directAccess) { return super.listIterator(paramInt); } if (isDelayLoad()) { load(); } ListIterator localListIterator = super.listIterator(paramInt); return ProxyCollections.afterListIterator(this, paramInt, localListIterator); }
@Override public ListIterator listIterator() { if (_directAccess) { return super.listIterator(); } if (isDelayLoad()) { load(); } ListIterator localListIterator = super.listIterator(); return ProxyCollections.afterListIterator(this, localListIterator); }
@Override public ListIterator listIterator(int paramInt) { if (_directAccess) { return super.listIterator(paramInt); } if (isDelayLoad()) { load(); } ListIterator localListIterator = super.listIterator(paramInt); return ProxyCollections.afterListIterator(this, paramInt, localListIterator); }
@Override public ListIterator listIterator() { if (_directAccess) { return super.listIterator(); } if (isDelayLoad()) { load(); } ListIterator localListIterator = super.listIterator(); return ProxyCollections.afterListIterator(this, localListIterator); }
@Override public ListIterator listIterator(int paramInt) { if (_directAccess) { return super.listIterator(paramInt); } if (isDelayLoad()) { load(); } ListIterator localListIterator = super.listIterator(paramInt); return ProxyCollections.afterListIterator(this, paramInt, localListIterator); }
@Override public ListIterator listIterator() { if (_directAccess) { return super.listIterator(); } if (isDelayLoad()) { load(); } ListIterator localListIterator = super.listIterator(); return ProxyCollections.afterListIterator(this, localListIterator); }
TIFFEncodeParam params = new TIFFEncodeParam(); OutputStream out = new FileOutputStream(output_dir + image_name + ".tif"); ImageEncoder encoder = ImageCodec.createImageEncoder("tiff", out, params); Vector vector = new Vector(); for (int i = 0; i < numImages; i++) { vector.add(image[i]); } params.setExtraImages(vector.listIterator(1)); // this may need a check to avoid IndexOutOfBoundsException when vector is empty encoder.encode(image[0]); out.close();
private TrimSpec parseTrimSpec( Vector stmt ) { ListIterator i = stmt.listIterator(); i.next(); // move past trimspec keyword String name = parseJavaIdentifier( i ); TrimSpec trimspec = new TrimSpec( name ); parseTrimSpecParams( i, trimspec ); return trimspec; } private void parseTrimSpecParams( ListIterator i, TrimSpec trimspec ) {
private HydraThreadGroup parseThreadGroup( Vector stmt ) { ListIterator i = stmt.listIterator(); i.next(); // move past threadgroup keyword String name = parseJavaIdentifier( i ); HydraThreadGroup tg = new HydraThreadGroup( name ); parseThreadSubgroups( i, tg ); return tg; } private void parseThreadSubgroups( ListIterator i, HydraThreadGroup tg ) {
private RuntimeStatSpec parseRuntimeStatSpec( Vector stmt ) { ListIterator i = stmt.listIterator(); RuntimeStatSpec statspec = new RuntimeStatSpec(); parseStatSpecId( i, statspec ); parseStatSpecParams( i, statspec ); return statspec; } private StatSpec parseStatSpec( Vector stmt ) {
private StatSpec parseStatSpec( Vector stmt ) { ListIterator i = stmt.listIterator(); i.next(); // move past spec keyword String name = parseJavaIdentifier( i ); StatSpec statspec = new StatSpec( name ); parseStatSpecId( i, statspec ); parseStatSpecParams( i, statspec ); return statspec; } /** Form is expr = numerator / denominator ops = min, max; */
@Test(expected = ReactiveAuditException.class) public void listIterator_1() { ReactiveAudit.off.commit(); Vector vector=new Vector(); TestTools.strict.commit(); vector.listIterator(); } @Test(expected = ReactiveAuditException.class)
@Test(expected = ReactiveAuditException.class) public void listIterator_2() { ReactiveAudit.off.commit(); Vector vector=new Vector(); TestTools.strict.commit(); vector.listIterator(0); } @Test(expected = ReactiveAuditException.class)