@Override public void appendTo(ToStringTreeBuilder builder) { builder.attribute( "class", getClass().getSimpleName() ); } }
@Override public void appendTo(ToStringTreeBuilder builder) { builder.attribute( "class", getClass().getSimpleName() ); }
@Override public void appendTo(ToStringTreeBuilder builder) { builder.attribute( "class", getClass().getSimpleName() ); } }
@Override public void appendTo(ToStringTreeBuilder builder) { builder.attribute( "class", getClass().getSimpleName() ); } }
@Override public void appendTo(ToStringTreeBuilder builder) { builder.attribute( "class", getClass().getSimpleName() ); } }
@Override public void appendTo(ToStringTreeBuilder builder) { builder.attribute( "class", getClass().getSimpleName() ); } }
@Override public void appendTo(ToStringTreeBuilder builder) { builder.attribute( "class", getClass().getSimpleName() ); } }
private static boolean checkForMismatch(ToStringTreeBuilder builder, String name, Object expected, Object actual) { if ( !Objects.equals( expected, actual ) ) { builder.startObject( name ); builder.attribute( "expected", expected ); builder.attribute( "actual", actual ); builder.endObject(); return true; } else { return false; } } }
public static void appendTo(ToStringTreeBuilder treeBuilder, Map<String, StubTreeNodeMismatch> mismatchesByPath) { for ( Map.Entry<String, StubTreeNodeMismatch> entry : mismatchesByPath.entrySet() ) { String path = entry.getKey(); treeBuilder.startObject( path ); StubTreeNodeMismatch mismatch = entry.getValue(); treeBuilder.attribute( "expected" , mismatch.expected ); treeBuilder.attribute( "actual" , mismatch.actual ); treeBuilder.endObject(); } }
@Override public void appendTo(ToStringTreeBuilder builder) { builder.attribute( "class", getClass().getSimpleName() ); builder.attribute( "caster", caster ); builder.startList( "nestedNodes" ); for ( PojoImplicitReindexingResolverNode<?, ?> node : nestedNodes ) { builder.value( node ); } builder.endList(); }
@Override public void appendTo(ToStringTreeBuilder builder) { builder.attribute( "class", getClass().getSimpleName() ); builder.attribute( "handle", handle ); builder.startList( "nestedNodes" ); for ( PojoImplicitReindexingResolverNode<?, ?> nestedNode : nestedNodes ) { builder.value( nestedNode ); } builder.endList(); }
@Override public void appendTo(ToStringTreeBuilder builder) { builder.attribute( "class", getClass().getSimpleName() ); builder.attribute( "caster", caster ); builder.startList( "nestedNodes" ); for ( PojoImplicitReindexingResolverNode<?, ?> node : nestedNodes ) { builder.value( node ); } builder.endList(); }
@Override public void appendTo(ToStringTreeBuilder builder) { builder.attribute( "class", getClass().getSimpleName() ); builder.attribute( "extractor", extractorHolder.get() ); builder.startList( "nestedNodes" ); for ( PojoImplicitReindexingResolverNode<?, ?> nestedNode : nestedNodes ) { builder.value( nestedNode ); } builder.endList(); }
@Override public void appendTo(ToStringTreeBuilder builder) { builder.attribute( "class", getClass().getSimpleName() ); builder.attribute( "extractor", extractorHolder.get() ); builder.startList( "nestedNodes" ); for ( PojoIndexingProcessor<?> nestedNode : nestedNodes ) { builder.value( nestedNode ); } builder.endList(); }
@Override public void appendTo(ToStringTreeBuilder builder) { builder.attribute( "class", getClass().getSimpleName() ); builder.startList( "nestedNodes" ); for ( PojoImplicitReindexingResolverNode<?, ?> node : nestedNodes ) { builder.value( node ); } builder.endList(); }