/** * Returns the base URI of the referer element. */ protected String getRefererBaseURI(Element ref) { AbstractNode aref = (AbstractNode) ref; if (aref.getXblBoundElement() != null) { return null; } return aref.getBaseURI(); }
/** * Returns the base URI of the referer element. */ protected String getRefererBaseURI(Element ref) { AbstractNode aref = (AbstractNode) ref; if (aref.getXblBoundElement() != null) { return null; } return aref.getBaseURI(); }
/** * Returns the base URI of the referer element. */ protected String getRefererBaseURI(Element ref) { AbstractNode aref = (AbstractNode) ref; if (aref.getXblBoundElement() != null) { return null; } return aref.getBaseURI(); }
if (ancestors.length > 0) { int index = ancestors.length - 1; Node boundElement = targetNode.getXblBoundElement(); AbstractNode ancestorNode = (AbstractNode) ancestors[index]; if (!singleScope && ancestorNode.getXblBoundElement() != boundElement) { es[index] = retargetEvent(e, ancestors[index]); } else { boundElement = ancestorNode.getXblBoundElement(); AbstractNode nextAncestorNode = (AbstractNode) ancestors[index]; Node nextBoundElement = nextAncestorNode.getXblBoundElement(); if (!singleScope && nextBoundElement != boundElement) { es[index] = retargetEvent(es[index + 1], ancestors[index]);
if (ancestors.length > 0) { int index = ancestors.length - 1; Node boundElement = targetNode.getXblBoundElement(); AbstractNode ancestorNode = (AbstractNode) ancestors[index]; if (!singleScope && ancestorNode.getXblBoundElement() != boundElement) { es[index] = retargetEvent(e, ancestors[index]); } else { boundElement = ancestorNode.getXblBoundElement(); AbstractNode nextAncestorNode = (AbstractNode) ancestors[index]; Node nextBoundElement = nextAncestorNode.getXblBoundElement(); if (!singleScope && nextBoundElement != boundElement) { es[index] = retargetEvent(es[index + 1], ancestors[index]);
if (ancestors.length > 0) { int index = ancestors.length - 1; Node boundElement = targetNode.getXblBoundElement(); AbstractNode ancestorNode = (AbstractNode) ancestors[index]; if (!singleScope && ancestorNode.getXblBoundElement() != boundElement) { es[index] = retargetEvent(e, ancestors[index]); } else { boundElement = ancestorNode.getXblBoundElement(); AbstractNode nextAncestorNode = (AbstractNode) ancestors[index]; Node nextBoundElement = nextAncestorNode.getXblBoundElement(); if (!singleScope && nextBoundElement != boundElement) { es[index] = retargetEvent(es[index + 1], ancestors[index]);
Node boundElement = targetNode.getXblBoundElement(); if (boundElement != null) { minAncestor = ancestors.length; AbstractNode ancestorNode = (AbstractNode) ancestors[minAncestor - 1]; if (ancestorNode.getXblBoundElement() != boundElement) { break;
Node boundElement = targetNode.getXblBoundElement(); if (boundElement != null) { minAncestor = ancestors.length; AbstractNode ancestorNode = (AbstractNode) ancestors[minAncestor - 1]; if (ancestorNode.getXblBoundElement() != boundElement) { break;
Node boundElement = targetNode.getXblBoundElement(); if (boundElement != null) { minAncestor = ancestors.length; AbstractNode ancestorNode = (AbstractNode) ancestors[minAncestor - 1]; if (ancestorNode.getXblBoundElement() != boundElement) { break;