#include <caml/fail.h>
} //extern C
-#include "TextCollection/TextCollection.h"
+//#include "TextCollection/TextCollection.h"
#include "XMLDocShredder.h"
#include "XMLTree.h"
#include "Utils.h"
}
void traversal_rec(XMLTree* tree, treeNode id){
+ DocID tid;
if (id == NULLT)
return;
- char * tag = (char*)tree->GetTagName(tree->Tag(id));
- if (id) {
- DocID tid = tree->PrevText(id);
- char * data = (char *) (tree->getTextCollection())->GetText(tid);
- if (tree->IsLeaf(id)){
- tid = tree->MyText(id);
- data = (char*) (tree->getTextCollection())->GetText(tid);
- };
+ // int tag = tree->Tag(id);
+ if (id) {
+ tid = tree->PrevText(id);
+ char * data = (char *) (tree->getTextCollection())->GetText(tid);
+ if (tree->IsLeaf(id)){
+ tid = tree->MyText(id);
+
+ data = (char*) (tree->getTextCollection())->GetText(tid);
+ };
- if (tree->NextSibling(id) == NULLT){
- tid = tree->NextText(id);
- data = (char*) (tree->getTextCollection())->GetText(tid);
- };
- }
- traversal_rec(tree,tree->FirstChild(id));
- traversal_rec(tree,tree->NextSibling(id));
- return;
+ if (tree->NextSibling(id) == NULLT){
+ tid = tree->NextText(id);
+ data = (char*) (tree->getTextCollection())->GetText(tid);
+ };
+ };
+ traversal_rec(tree,tree->FirstChild(id));
+ traversal_rec(tree,tree->NextSibling(id));
+ return;
}
-void traversal (XMLTree* tree){
- traversal_rec(tree, tree->Root());
- return;
-}
-
-
extern "C" CAMLprim value caml_cpp_traversal(value tree){
CAMLparam1(tree);
- traversal(XMLTREE(tree));
+ traversal_rec(XMLTREE(tree),XMLTREE(tree)->Root());
CAMLreturn(Val_unit);
}
+extern "C" CAMLprim value caml_text_collection_get_text(value tree, value id){
+ CAMLparam2(tree,id);
+ const char* txt = (const char*) (XMLTREE(tree)->GetText((DocID) Int_val(id)));
+ CAMLreturn (caml_copy_string(txt));
+}
+extern "C" CAMLprim value caml_text_collection_empty_text(value tree,value id){
+ CAMLparam2(tree,id);
+ CAMLreturn ( Val_int((XMLTREE(tree))->EmptyText((DocID) Int_val(id))));
+}
+
+extern "C" CAMLprim value caml_text_collection_is_contains(value tree,value str){
+ CAMLparam2(tree,str);
+ uchar * cstr = (uchar *) String_val(str);
+ CAMLreturn ( Val_bool((int) XMLTREE(tree)->IsContains(cstr)));
+}
-extern "C" CAMLprim value caml_text_collection_get_text(value tc, value id){
- CAMLparam2(tc,id);
+extern "C" CAMLprim value caml_text_collection_count_contains(value tree,value str){
+ CAMLparam2(tree,str);
+ uchar * cstr = (uchar *) String_val(str);
+ CAMLreturn (Val_int((XMLTREE(tree)->CountContains(cstr))));
- const char* txt = (const char*) ((TextCollection*) tc)->GetText((DocID) Int_val(id));
- CAMLreturn (caml_copy_string(txt));
}
-extern "C" CAMLprim value caml_text_collection_empty_text(value tc,value id){
- CAMLparam2(tc,id);
- CAMLreturn ( Val_int(((TextCollection*) tc)->EmptyText((DocID) Int_val(id))));
+
+extern "C" CAMLprim value caml_text_collection_contains(value tree,value str){
+ CAMLparam2(tree,str);
+ CAMLlocal1(resarray);
+ uchar * cstr = (uchar *) String_val(str);
+ std::vector<DocID> results;
+ results = XMLTREE(tree)->Contains(cstr);
+
+ resarray = caml_alloc_tuple(results.size());
+
+ for (unsigned int i=0; i<results.size();i++){
+ caml_initialize(&Field(resarray,i),Val_int(results[i]));
+ };
+ CAMLreturn (resarray);
}
+
extern "C" CAMLprim value caml_xml_tree_root(value tree){
CAMLparam1(tree);
CAMLreturn (TREENODEVAL(XMLTREE(tree)->Root()));
CAMLparam1(tree);
CAMLreturn((value) XMLTREE(tree)->getTextCollection());
}
+extern "C" CAMLprim value caml_xml_tree_parent(value tree, value id){
+ CAMLparam2(tree,id);
+ CAMLreturn(Val_int (XMLTREE(tree)->Parent(TREENODEVAL(id))));
+}
+extern "C" CAMLprim value caml_xml_tree_parent_doc(value tree, value id){
+ CAMLparam2(tree,id);
+ CAMLreturn(Val_int (XMLTREE(tree)->ParentNode(TREENODEVAL(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))));
+}
+
+extern "C" CAMLprim value caml_xml_tree_serialize(value tree, value filename){
+ CAMLparam2(tree,filename);
+ NOT_IMPLEMENTED("caml_xml_tree_serialize");
+ CAMLreturn(Val_unit);
+}
+
+extern "C" CAMLprim value caml_xml_tree_unserialize(value filename){
+ CAMLparam1(filename);
+ NOT_IMPLEMENTED("caml_xml_tree_unserialize");
+ CAMLreturn(Val_unit);
+}
+
extern "C" CAMLprim value caml_xml_tree_first_child(value tree, value id){
CAMLparam2(tree,id);
extern "C" CAMLprim value caml_xml_tree_text_xml_id(value tree, value id){
CAMLparam2(tree,id);
-
- NOT_IMPLEMENTED("caml_xml_tree_text_xml_id");
- CAMLreturn (Val_unit);
+ CAMLreturn(Val_int((XMLTREE(tree)->TextXMLId(TREENODEVAL(id)))));
}
extern "C" CAMLprim value caml_xml_tree_node_xml_id(value tree, value id){
CAMLparam2(tree,id);
-
- NOT_IMPLEMENTED("caml_xml_tree_node_xml_id");
- CAMLreturn (Val_unit);
+ CAMLreturn(Val_int((XMLTREE(tree)->NodeXMLId(TREENODEVAL(id)))));
}
extern "C" CAMLprim value caml_xml_tree_tag(value tree, value id){
CAMLparam2(tree,id);
CAMLreturn (caml_copy_string(tag));
}
+extern "C" CAMLprim value caml_xml_tree_tag_id(value tree,value id){
+ CAMLparam2(tree,id);
+ CAMLreturn (Val_int(XMLTREE(tree)->Tag(TREENODEVAL(id))));
+}
+
+extern "C" CAMLprim value caml_xml_tree_register_tag(value tree,value str){
+ CAMLparam2(tree,str);
+ CAMLlocal1(id);
+ unsigned char* tag;
+ tag = (unsigned char*) (String_val(str));
+ id = Val_int(XMLTREE(tree)->RegisterTag(tag));
+ free(tag);
+ CAMLreturn (id);
+}
+
extern "C" CAMLprim value caml_xml_tree_nullt(value unit){
CAMLparam1(unit);
CAMLreturn (NULLT);