public void build(XSParticle p, Collection<XSParticle> forcedProps) { // this class isn't about spec conformance, but // for the ease of use. // so we don't give a damn about 'forcedProps'. // although, for a future note, it's conceivable to expand // the binding algorithm to cover this notion. Expression tree = ExpressionBuilder.createTree(p); Graph g = new Graph(tree); for (ConnectedComponent cc : g) { buildProperty(cc); } }
public void build(XSParticle p, Collection<XSParticle> forcedProps) { // this class isn't about spec conformance, but // for the ease of use. // so we don't give a damn about 'forcedProps'. // although, for a future note, it's conceivable to expand // the binding algorithm to cover this notion. Expression tree = ExpressionBuilder.createTree(p); Graph g = new Graph(tree); for (ConnectedComponent cc : g) { buildProperty(cc); } }
public void build(XSParticle p, Collection<XSParticle> forcedProps) { // this class isn't about spec conformance, but // for the ease of use. // so we don't give a damn about 'forcedProps'. // although, for a future note, it's conceivable to expand // the binding algorithm to cover this notion. Expression tree = ExpressionBuilder.createTree(p); Graph g = new Graph(tree); for (ConnectedComponent cc : g) { buildProperty(cc); } }
public void build(XSParticle p, Collection<XSParticle> forcedProps) { // this class isn't about spec conformance, but // for the ease of use. // so we don't give a damn about 'forcedProps'. // although, for a future note, it's conceivable to expand // the binding algorithm to cover this notion. Expression tree = ExpressionBuilder.createTree(p); Graph g = new Graph(tree); for (ConnectedComponent cc : g) { buildProperty(cc); } }
public void build(XSParticle p, Collection<XSParticle> forcedProps) { // this class isn't about spec conformance, but // for the ease of use. // so we don't give a damn about 'forcedProps'. // although, for a future note, it's conceivable to expand // the binding algorithm to cover this notion. Expression tree = ExpressionBuilder.createTree(p); Graph g = new Graph(tree); for (ConnectedComponent cc : g) { buildProperty(cc); } }