void writeNestedObjectTo(T object, TreePruner pruner, DataWriter writer) throws IOException { if(superModel !=null) superModel.writeNestedObjectTo(object,pruner,writer); for (Property p : properties) p.writeTo(object,pruner,writer); } }
void writeNestedObjectTo(T object, TreePruner pruner, DataWriter writer) throws IOException { if (superModel != null) { superModel.writeNestedObjectTo(object, new FilteringTreePruner(HAS_PROPERTY_NAME,pruner), writer); } for (Property p : properties) { p.writeTo(object, pruner, writer); } }
void writeNestedObjectTo(T object, TreePruner pruner, DataWriter writer) throws IOException { if (superModel != null) { superModel.writeNestedObjectTo(object, new FilteringTreePruner(HAS_PROPERTY_NAME,pruner), writer); } for (Property p : properties) { p.writeTo(object, pruner, writer); } }
/** * Writes the property values of the given object to the writer. * * @param pruner * Controls which portion of the object graph will be sent to the writer. */ public void writeTo(T object, TreePruner pruner, DataWriter writer) throws IOException { writer.startObject(); writeNestedObjectTo(object,pruner,writer); writer.endObject(); }
/** * Writes the property values of the given object to the writer. * * @param pruner * Controls which portion of the object graph will be sent to the writer. */ public void writeTo(T object, TreePruner pruner, DataWriter writer) throws IOException { writer.type(null,object.getClass()); writer.startObject(); writeNestedObjectTo(object, pruner, writer); writer.endObject(); }
/** * Writes the property values of the given object to the writer. * * @param pruner * Controls which portion of the object graph will be sent to the writer. */ public void writeTo(T object, TreePruner pruner, DataWriter writer) throws IOException { writer.type(null,object.getClass()); writer.startObject(); writeNestedObjectTo(object, pruner, writer); writer.endObject(); }
model.writeNestedObjectTo(value,pruner,writer); writer.endObject();
writer.type(expected, value.getClass()); writer.startObject(); model.writeNestedObjectTo(value, pruner, writer); writer.endObject();
writer.type(expected, value.getClass()); writer.startObject(); model.writeNestedObjectTo(value, pruner, writer); writer.endObject();
/** * Writes one property of the given object to {@link DataWriter}. * * @param pruner * Determines how to prune the object graph tree. */ @SuppressWarnings("unchecked") public void writeTo(Object object, TreePruner pruner, DataWriter writer) throws IOException { TreePruner child = pruner.accept(object, this); if (child==null) return; Object d = writer.getExportConfig().getExportInterceptor().getValue(this,object, writer.getExportConfig()); if ((d==null && skipNull) || d == ExportInterceptor.SKIP) { // don't write anything return; } if (merge) { // merged property will get all its properties written here if (d != null) { Class<?> objectType = d.getClass(); Model model = owner.getOrNull(objectType, parent.type, name); if (model == null && !writer.getExportConfig().isSkipIfFail()) { throw new NotExportableException(objectType); } else if (model != null) { model.writeNestedObjectTo(d, new FilteringTreePruner(parent.HAS_PROPERTY_NAME_IN_ANCESTRY,child), writer); } } } else { writer.name(name); writeValue(type, d, child, writer); } }
/** * Writes one property of the given object to {@link DataWriter}. * * @param pruner * Determines how to prune the object graph tree. */ @SuppressWarnings("unchecked") public void writeTo(Object object, TreePruner pruner, DataWriter writer) throws IOException { TreePruner child = pruner.accept(object, this); if (child==null) return; Object d = writer.getExportConfig().getExportInterceptor().getValue(this,object, writer.getExportConfig()); if ((d==null && skipNull) || d == ExportInterceptor.SKIP) { // don't write anything return; } if (merge) { // merged property will get all its properties written here if (d != null) { Class<?> objectType = d.getClass(); Model model = owner.getOrNull(objectType, parent.type, name); if (model == null && !writer.getExportConfig().isSkipIfFail()) { throw new NotExportableException(objectType); } else if (model != null) { model.writeNestedObjectTo(d, new FilteringTreePruner(parent.HAS_PROPERTY_NAME_IN_ANCESTRY,child), writer); } } } else { writer.name(name); writeValue(type, d, child, writer); } }