let fold _ _ _ = failwith "fold not implemented"
let map _ _ = failwith "map not implemented"
let length x = x
- let serialize _ _ _ = ()
+ let serialize f _ x =
+ let o = open_out f in
+ output_string o "<xml_result>\n";
+ output_string o (string_of_int x);
+ output_string o "\n</xml_result>\n";
+ close_out o
end
type clist =
if Tree.tag tree t == tag then t
else Tree.tagged_descendant tree t tag
- let fst_element tree t =
+(*
+ let fst_element tree t =
let tag = Tree.tag tree t in
- let t = if Ptset.Int.mem tag
- (Ptset.Int.remove Tag.document_node (Tree.element_tags tree))
- then t
- else Tree.first_element tree t
- in Tree.first_element tree t
+ if tag == Tag.document_node then
+ Tree.first_element tree t
+ else t
+*)
let element_fold f tree t acc =
let rec loop node acc =
let acc' = loop (Tree.first_element tree node) acc in
loop (Tree.next_element tree node) acc'
in
- loop (fst_element tree t) acc
+ let t' = Tree.first_element tree t in loop t' acc
let element_iter f tree t =
- let rec loop node =
- if node != Tree.nil then begin
- f node;
- loop (Tree.first_element tree node);
- loop (Tree.next_element tree node)
- end
- in
- let t' = fst_element tree t in loop t'
+ let newf = fun e () -> f e in
+ element_fold newf tree t ()
let tag_fold f tree t tag acc =
let rec loop close node acc =
Unix.close
in
ignore (Unix.write fd "<xml_result>\n" 0 13);
- iter (fun node -> Tree.print_xml v node fd) l;
- Tree.flush v fd;
+ if l.length > 0 then begin
+ iter (fun node -> Tree.print_xml v node fd) l;
+ Tree.flush v fd;
+ end;
ignore (Unix.write fd "</xml_result>\n" 0 14);
finish fd