return;
}
+
extern "C" CAMLprim value caml_call_shredder_uri(value uri,value sf, value iet, value dtc){
CAMLparam1(uri);
CAMLlocal1(doc);
};
}
+
+
+
void traversal_rec(XMLTree* tree, treeNode id){
DocID tid;
if (id == NULLT)
return;
- // int tag = tree->Tag(id);
+ //int tag = tree->Tag(id);
if (id) {
tid = tree->PrevText(id);
char * data = (char *) (tree->getTextCollection())->GetText(tid);
}
extern "C" CAMLprim value caml_text_collection_count(value tree,value str){
CAMLparam2(tree,str);
- //uchar * cstr = (uchar *) String_val(str);
- NOT_IMPLEMENTED("text_collection_count");
+ uchar * cstr = (uchar *) String_val(str);
+ CAMLreturn (Val_int((XMLTREE(tree)->Count(cstr))));
CAMLreturn (Val_unit);
}
extern "C" CAMLprim value caml_xml_tree_root(value tree){
CAMLparam1(tree);
- CAMLreturn (TREENODEVAL(XMLTREE(tree)->Root()));
+ CAMLreturn (Val_int(TREENODEVAL(XMLTREE(tree)->Root())));
}
extern "C" CAMLprim value caml_xml_tree_text_collection(value tree){
CAMLparam1(tree);
CAMLparam2(tree,id);
CAMLreturn(Val_int (XMLTREE(tree)->Parent(TREENODEVAL(id))));
}
+extern "C" CAMLprim value caml_xml_tree_prev_sibling(value tree, value id){
+ CAMLparam2(tree,id);
+ CAMLreturn(Val_int (XMLTREE(tree)->PrevSibling(TREENODEVAL(id))));
+}
+
extern "C" CAMLprim value caml_xml_tree_parent_doc(value tree, value id){
CAMLparam2(tree,id);
CAMLreturn(Val_int (XMLTREE(tree)->ParentNode((DocID) Int_val(id))));
}
+extern "C" CAMLprim value caml_xml_tree_prev_doc(value tree, value id){
+ CAMLparam2(tree,id);
+ CAMLreturn(Val_int (XMLTREE(tree)->PrevNode((DocID) Int_val(id))));
+}
+
extern "C" CAMLprim value caml_xml_tree_is_ancestor(value tree,value id1, value id2) {
CAMLparam3(tree,id1,id2);
CAMLreturn(Val_bool (XMLTREE(tree)->IsAncestor(TREENODEVAL(id1),TREENODEVAL(id2))));
CAMLreturn(Val_int (XMLTREE(tree)->TaggedDesc(TREENODEVAL(id),(TagType) Int_val(tag))));
}
-extern "C" CAMLprim value caml_xml_tree_tagged_next(value tree, value id, value tag){
- CAMLparam3(tree,id,tag);
- CAMLreturn(Val_int (XMLTREE(tree)->TaggedNext(TREENODEVAL(id),(TagType) Int_val(tag))));
-}
-
-
-
extern "C" CAMLprim value caml_xml_tree_tagged_foll(value tree, value id, value tag){
CAMLparam3(tree,id,tag);
CAMLreturn(Val_int (XMLTREE(tree)->TaggedFoll(TREENODEVAL(id),(TagType) Int_val(tag))));
}
+extern "C" CAMLprim value caml_xml_tree_tagged_foll_below(value tree, value id, value tag,value root){
+ CAMLparam4(tree,id,tag,root);
+ CAMLreturn(Val_int (XMLTREE(tree)->TaggedFollBelow(TREENODEVAL(id),(TagType) Int_val(tag),TREENODEVAL(root))));
+}
extern "C" CAMLprim value caml_xml_tree_next_sibling(value tree, value id){
memcpy(Data_custom_val(doc),&tree,sizeof(XMLTree*));
CAMLreturn(doc);
}
+
+extern "C" {
+ static int caml_empty_vector[] = { 0 };
+}
+
+extern "C" CAMLprim value caml_int_vector_empty(value unit){
+ CAMLparam1(unit);
+ CAMLreturn ((value) caml_empty_vector);
+}
+
+extern "C" CAMLprim value caml_int_vector_length(value vec){
+ CAMLparam1(vec);
+ CAMLreturn (Val_int( ((int*) caml_empty_vector)[0] ));
+}
+extern "C" CAMLprim value caml_int_vector_alloc(value len){
+ CAMLparam1(len);
+ int * vec = (int *) malloc(sizeof(int)*(Int_val(len)+1));
+ vec[0] = Int_val(len);
+ CAMLreturn ((value) vec);
+}
+
+extern "C" CAMLprim value caml_int_vector_set(value vec, value i, value v){
+ CAMLparam3(vec,i,v);
+
+ ((int*) vec)[Int_val(i)+1] = Int_val(v);
+ CAMLreturn (Val_unit);
+}
+
+
+#define VECT(x) ((int*) (x))
+extern "C" CAMLprim value caml_xml_tree_select_below(value tree, value node, value ctags, value dtags){
+ CAMLparam4(tree,node,ctags,dtags);
+
+ CAMLreturn (Val_int (
+ (XMLTREE(tree)->TaggedBelow(TREENODEVAL(node),
+ &(VECT(ctags)[1]),
+ VECT(ctags)[0],
+ &(VECT(dtags)[1]),
+ VECT(dtags)[0]))));
+}
+
+extern "C" CAMLprim value caml_xml_tree_select_next(value tree, value node, value ctags, value ftags,value root){
+ CAMLparam5(tree,node,ctags,ftags,root);
+ CAMLreturn (Val_int (
+ (XMLTREE(tree)->TaggedNext(TREENODEVAL(node),
+ &(VECT(ctags)[1]),
+ VECT(ctags)[0],
+ &(VECT(ftags)[1]),
+ VECT(ftags)[0],
+ TREENODEVAL(root)))));
+}
+
+extern "C" CAMLprim value caml_xml_tree_select_desc_only(value tree, value node,value dtags){
+ CAMLparam3(tree,node,dtags);
+
+ CAMLreturn (Val_int (
+ (XMLTREE(tree)->TaggedDescOnly(TREENODEVAL(node),
+ &(VECT(dtags)[1]),
+ VECT(dtags)[0]))));
+}
+
+extern "C" CAMLprim value caml_xml_tree_select_foll_only(value tree, value node, value ftags,value root){
+ CAMLparam4(tree,node,ftags,root);
+ CAMLreturn (Val_int (
+ (XMLTREE(tree)->TaggedFollOnly(TREENODEVAL(node),
+ &(VECT(ftags)[1]),
+ VECT(ftags)[0],
+ TREENODEVAL(root)))));
+}
+
+extern "C" CAMLprim value caml_xml_tree_select_desc_or_foll_only(value tree, value node, value ftags,value root){
+ CAMLparam4(tree,node,ftags,root);
+ CAMLreturn (Val_int (
+ (XMLTREE(tree)->TaggedDescOrFollOnly(TREENODEVAL(node),
+ &(VECT(ftags)[1]),
+ VECT(ftags)[0],
+ TREENODEVAL(root)))));
+}
+
+extern "C" CAMLprim value caml_xml_tree_doc_ids(value tree, value node){
+ CAMLparam2(tree,node);
+ CAMLlocal1(tuple);
+ tuple = caml_alloc_tuple(2);
+ range r = (XMLTREE(tree)->DocIds(TREENODEVAL(node)));
+ caml_initialize(&Field(tuple,0),Val_int(r.min));
+ caml_initialize(&Field(tuple,1),Val_int(r.max));
+ CAMLreturn (tuple);
+}