+++ /dev/null
-/**************************************
- * OCamlDriver.cpp
- * -------------------
- * An Ocaml Driver which calls the C++ methods and
- * adds a C wrapper interface with OCaml code.
- *
- * Author: Kim Nguyen
- * Date: 04/11/08
- */
-
-/***
- * Conventions:
- * functions never doing any allocation (non caml_alloc*, caml_copy_string,...)
- * have NOALLOC in the comment and their external declaration can have "noalloc"
- */
-
-
-#include <unordered_set>
-#include <algorithm>
-#include "XMLDocShredder.h"
-#include "XMLTree.h"
-#include "Utils.h"
-
-extern "C" {
-/* OCaml memory managment */
-#include <caml/mlvalues.h>
-#include <caml/alloc.h>
-#include <caml/memory.h>
-#include <caml/callback.h>
-#include <caml/fail.h>
-#include <caml/custom.h>
-#include "results.h"
-#include <stdio.h>
-
-#define CAMLRAISEMSG(msg) (caml_raise_with_string(*cpp_exception,(msg) ))
-#define NOT_IMPLEMENTED(s) (caml_failwith(s))
-#define XMLTREE(x) ((XMLTree *)(* (XMLTree**) Data_custom_val(x)))
-#define HSET(x) ((TagIdSet*)((* (TagIdSet**) Data_custom_val(x))))
-#define TEXTCOLLECTION(x)
-#define TREENODEVAL(i) ((treeNode) (Int_val(i)))
-#define TAGVAL(i) ((TagType) (Int_val(i)))
-#define XMLTREE_ROOT 0
-#define NoAlloc
-
-
- static struct custom_operations ops;
- static struct custom_operations set_ops;
- static value * cpp_exception = NULL;
- static bool ops_initialized = false;
-
-}
-
-extern "C" void caml_xml_tree_finalize(value tree){
- delete XMLTREE(tree);
- return;
-}
-
-extern "C" void caml_hset_finalize(value hblock){
- delete HSET(hblock);
- return;
-}
-
-extern "C" value caml_init_lib (value unit) {
- CAMLparam1(unit);
- if (!ops_initialized){
-
-
- ops.identifier = (char*) "XMLTree";
- ops.finalize = caml_xml_tree_finalize;
- set_ops.identifier = (char*) "unordered_set";
- set_ops.finalize = caml_hset_finalize;
-
- cpp_exception = caml_named_value("CPlusPlusError");
- if (cpp_exception == NULL){
- string s = "FATAL: Unregistered exception ";
- s += "CPlusPlusError";
- caml_failwith(s.c_str());
- };
-
- ops_initialized = true;
-
- };
- CAMLreturn(Val_unit);
-
-}
-extern "C" value caml_shredder_parse(XMLDocShredder *shredder){
- CAMLparam0();
- CAMLlocal1(doc);
- XMLTree * tree;
- shredder->processStartDocument("");
- shredder->parse();
- shredder->processEndDocument();
- doc = caml_alloc_custom(&ops,sizeof(XMLTree*),1,2);
- tree = (XMLTree *) shredder->getXMLTree();
- memcpy(Data_custom_val(doc),&tree,sizeof(XMLTree*));
- CAMLreturn(doc);
-
-}
-
-extern "C" value caml_call_shredder_uri(value uri,value sf, value iet, value dtc){
- CAMLparam1(uri);
- CAMLlocal1(doc);
- char *fn = String_val(uri);
- XMLDocShredder * shredder;
- try {
- shredder = new XMLDocShredder(fn,Int_val(sf),Bool_val(iet),Bool_val(dtc));
- doc = caml_shredder_parse(shredder);
- delete shredder;
- }
- catch (const std::exception& e){ CAMLRAISEMSG(e.what()); }
- catch (string msg){ CAMLRAISEMSG(msg.c_str()); }
- catch (char const * msg){ CAMLRAISEMSG(msg); };
- CAMLreturn (doc);
-
-}
-extern "C" value caml_call_shredder_string(value data,value sf, value iet, value dtc){
- CAMLparam1(data);
- CAMLlocal1(doc);
- XMLDocShredder * shredder;
- unsigned int ln = caml_string_length(data);
- unsigned char *fn = (unsigned char*) String_val(data);
- try {
- shredder = new XMLDocShredder (fn,ln,Int_val(sf),Bool_val(iet),Bool_val(dtc));
- doc = caml_shredder_parse(shredder);
- delete shredder;
- }
- catch (const std::exception& e){ CAMLRAISEMSG(e.what()); }
- catch (string msg){ CAMLRAISEMSG(msg.c_str()); }
- catch (char const * msg){ CAMLRAISEMSG(msg); };
- CAMLreturn(doc);
-}
-
-extern "C" value caml_xml_tree_save(value tree,value fd, value str){
- CAMLparam3(tree,fd,str);
- XMLTREE(tree)->Save(Int_val(fd), String_val(str));
- CAMLreturn (Val_unit);
-}
-
-extern "C" value caml_xml_tree_load(value fd, value str, value load_tc,value sf){
- CAMLparam4(fd,str,load_tc,sf);
- CAMLlocal1(doc);
- XMLTree * tree;
- try {
- tree = XMLTree::Load(Int_val(fd),String_val(str),Bool_val(load_tc),Int_val(sf));
- printf("Pointer to tree is %p\n", (void*) tree);
- doc = caml_alloc_custom(&ops,sizeof(XMLTree*),1,2);
- memcpy(Data_custom_val(doc),&tree,sizeof(XMLTree*));
- CAMLreturn(doc);
- }
- catch (const xmlpp::internal_error& e){ CAMLRAISEMSG(e.what()); }
- catch (const std::exception& e){ CAMLRAISEMSG(e.what()); }
- catch (string msg){ CAMLRAISEMSG(msg.c_str()); }
- catch (char const * msg){ CAMLRAISEMSG(msg); };
-}
-
-
-/**
- * Interface to the TextCollection
- */
-
-/**
- * Utility functions
- */
-
-extern "C" value caml_text_collection_get_text(value tree, value id){
- CAMLparam2(tree,id);
- CAMLlocal1(str);
- uchar* txt = XMLTREE(tree)->GetText((DocID) Int_val(id));
- str = caml_copy_string((const char*)txt);
- CAMLreturn (str);
-}
-
-
-extern "C" value caml_text_collection_empty_text(value tree,value id){
- CAMLparam2(tree,id);
- CAMLreturn ( Val_int((XMLTREE(tree))->EmptyText((DocID) Int_val(id))));
-}
-
-bool docId_comp(DocID x, DocID y) { return x < y; };
-
-/**
- * Existential queries
- */
-
-extern "C" value caml_text_collection_is_prefix(value tree,value str){
- CAMLparam2(tree,str);
- uchar * cstr = (uchar *) String_val(str);
- CAMLreturn (Val_bool((int) XMLTREE(tree)->IsPrefix(cstr)));
-}
-
-extern "C" value caml_text_collection_is_suffix(value tree,value str){
- CAMLparam2(tree,str);
- uchar * cstr = (uchar *) String_val(str);
- CAMLreturn (Val_bool((int) XMLTREE(tree)->IsSuffix(cstr)));
-}
-extern "C" value caml_text_collection_is_equal(value tree,value str){
- CAMLparam2(tree,str);
- uchar * cstr = (uchar *) String_val(str);
- CAMLreturn (Val_bool((int) XMLTREE(tree)->IsEqual(cstr)));
-}
-extern "C" 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" value caml_text_collection_is_lessthan(value tree,value str){
- CAMLparam2(tree,str);
- uchar * cstr = (uchar *) String_val(str);
- CAMLreturn ( Val_bool((int) XMLTREE(tree)->IsLessThan(cstr)));
-}
-
-
-/**
- * Count Queries
- */
-
-/**
- * Global counting
- */
-extern "C" value caml_text_collection_count(value tree,value str){
- CAMLparam2(tree,str);
- uchar * cstr = (uchar *) String_val(str);
- CAMLreturn (Val_int((XMLTREE(tree)->Count(cstr))));
-}
-
-extern "C" value caml_text_collection_count_prefix(value tree,value str){
- CAMLparam2(tree,str);
- uchar * cstr = (uchar *) String_val(str);
- CAMLreturn (Val_int((XMLTREE(tree)->CountPrefix(cstr))));
-}
-
-extern "C" value caml_text_collection_count_suffix(value tree,value str){
- CAMLparam2(tree,str);
- uchar * cstr = (uchar *) String_val(str);
- CAMLreturn (Val_int((XMLTREE(tree)->CountSuffix(cstr))));
-}
-
-extern "C" value caml_text_collection_count_equal(value tree,value str){
- CAMLparam2(tree,str);
- uchar * cstr = (uchar *) String_val(str);
- CAMLreturn (Val_int((XMLTREE(tree)->CountEqual(cstr))));
-}
-
-extern "C" 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))));
-}
-
-extern "C" value caml_text_collection_count_lessthan(value tree,value str){
- CAMLparam2(tree,str);
- uchar * cstr = (uchar *) String_val(str);
- CAMLreturn (Val_int((XMLTREE(tree)->CountLessThan(cstr))));
-}
-
-static value sort_alloc_array(std::vector<DocID> results, value resarray){
- std::sort(results.begin(), results.end(), docId_comp);
- size_t s = results.size();
- resarray = caml_alloc_tuple(s);
- for (size_t i = 0; i < s ;i++){
- caml_initialize(&Field(resarray,i),Val_int(results[i]));
- };
- return resarray;
-
-}
-
-/**
- * Full reporting queries
- */
-
-extern "C" value caml_text_collection_prefix(value tree,value str){
- CAMLparam2(tree,str);
- CAMLlocal1(resarray);
- uchar * cstr = (uchar *) String_val(str);
- std::vector<DocID> results = XMLTREE(tree)->Prefix(cstr);
- CAMLreturn (sort_alloc_array(results,resarray));
-}
-
-extern "C" value caml_text_collection_suffix(value tree,value str){
- CAMLparam2(tree,str);
- CAMLlocal1(resarray);
- uchar * cstr = (uchar *) String_val(str);
- std::vector<DocID> results = XMLTREE(tree)->Suffix(cstr);
- CAMLreturn (sort_alloc_array(results,resarray));
-}
-
-extern "C" value caml_text_collection_equals(value tree,value str){
- CAMLparam2(tree,str);
- CAMLlocal1(resarray);
- uchar * cstr = (uchar *) strdup(String_val(str));
- std::vector<DocID> results = XMLTREE(tree)->Equals(cstr);
- free(cstr);
- CAMLreturn (sort_alloc_array(results,resarray));
-}
-
-extern "C" value caml_text_collection_contains(value tree,value str){
- CAMLparam2(tree,str);
- CAMLlocal1(resarray);
- uchar * cstr = (uchar *) String_val(str);
- std::vector<DocID> results = XMLTREE(tree)->Contains(cstr);
- CAMLreturn (sort_alloc_array(results,resarray));
-}
-
-extern "C" value caml_text_collection_lessthan(value tree,value str){
- CAMLparam2(tree,str);
- CAMLlocal1(resarray);
- uchar * cstr = (uchar *) String_val(str);
- std::vector<DocID> results = XMLTREE(tree)->LessThan(cstr);
- CAMLreturn (sort_alloc_array(results,resarray));
-}
-
-/** Full reporting into a bit vector
- */
-
-extern "C" value caml_text_collection_prefix_bv(value tree,value str){
- CAMLparam2(tree,str);
- uchar * cstr = (uchar *) strdup(String_val(str));
- std::vector<DocID> results = XMLTREE(tree)->Prefix(cstr);
- std::vector<bool> *bv = new std::vector<bool>(XMLTREE(tree)->Size(),false);
- for (unsigned int i=0; i < results.size(); i++)
- bv->at(XMLTREE(tree)->ParentNode(results[i]))=true;
- free(cstr);
- CAMLreturn ((value) bv);
-}
-
-extern "C" value caml_text_collection_suffix_bv(value tree,value str){
- CAMLparam2(tree,str);
- uchar * cstr = (uchar *) strdup(String_val(str));
- std::vector<DocID> results = XMLTREE(tree)->Suffix(cstr);
- std::vector<bool> *bv = new std::vector<bool>(XMLTREE(tree)->Size(),false);
- for (unsigned int i=0; i < results.size(); i++)
- bv->at(XMLTREE(tree)->ParentNode(results[i]))=true;
- free(cstr);
- CAMLreturn ((value) bv);
-}
-
-extern "C" value caml_text_collection_equals_bv(value tree,value str){
- CAMLparam2(tree,str);
- uchar * cstr = (uchar *) strdup(String_val(str));
- XMLTree* xt = XMLTREE(tree);
- std::vector<DocID> results = xt->Equals(cstr);
- std::vector<bool> *bv = new std::vector<bool>(xt->Size(),false);
- for (unsigned int i=0; i < results.size(); i++)
- bv->at(xt->Parent(xt->ParentNode(results[i])))=true;
- free(cstr);
- CAMLreturn ((value) bv);
-}
-
-
-extern "C" value caml_text_collection_contains_bv(value tree,value str){
- CAMLparam2(tree,str);
- uchar * cstr = (uchar *) strdup(String_val(str));
- XMLTree* xt = XMLTREE(tree);
- std::vector<DocID> results = xt->Contains(cstr);
- std::vector<bool> *bv = new std::vector<bool>(xt->Size(),false);
- for (unsigned int i=0; i < results.size(); i++){
- bv->at(xt->Parent(xt->ParentNode(results[i])))=true;
- }
- free(cstr);
- CAMLreturn ((value) bv);
-}
-
-extern "C" value caml_text_collection_contains_bv_update(value tree,value str,value vbv){
- CAMLparam3(tree,str,vbv);
- uchar * cstr = (uchar *) strdup(String_val(str));
- XMLTree* xt = XMLTREE(tree);
- std::vector<DocID> results = xt->Contains(cstr);
- std::vector<bool> *bv = (std::vector<bool> *) vbv;
- for (unsigned int i=0; i < results.size(); i++){
- /** Hack for the Techfest demo */
- (*bv)[xt->Parent(xt->Parent(xt->ParentNode(results[i])))]=true;
- }
- free(cstr);
- CAMLreturn ((value) bv);
-}
-extern "C" value caml_text_collection_contains_bv_update_list(value tree,value str,value acc,value vbv,value count){
- CAMLparam4(tree,str,acc,vbv);
- CAMLlocal1(head);
- uchar * cstr = (uchar *) strdup(String_val(str));
- XMLTree* xt = XMLTREE(tree);
- std::vector<DocID> results = xt->Contains(cstr);
- std::vector<bool> *bv = (std::vector<bool> *) vbv;
- treeNode idx;
- int acc_count = Int_val(count);
- for (unsigned int i=0; i < results.size(); i++){
- idx = xt->Parent(xt->Parent(xt->ParentNode(results[i])));
- if (!(*bv)[idx]) {
- (*bv)[idx]=true;
- head = caml_alloc_tuple(2);
- caml_initialize(&Field(head,0),Val_int(idx));
- caml_initialize(&Field(head,1),acc);
- acc=head;
- acc_count++;
- };
- };
- free(cstr);
- head = caml_alloc_tuple(3);
- caml_initialize(&Field(head,0),acc);
- caml_initialize(&Field(head,1),(value) bv);
- caml_initialize(&Field(head,2),Val_int(acc_count));
- CAMLreturn (head);
-}
-
-extern "C" value caml_text_collection_lessthan_bv(value tree,value str){
- CAMLparam2(tree,str);
- uchar * cstr = (uchar *) strdup(String_val(str));
- std::vector<DocID> results = XMLTREE(tree)->LessThan(cstr);
- std::vector<bool> *bv = new std::vector<bool>(XMLTREE(tree)->Size(),false);
- for (unsigned int i=0; i < results.size(); i++)
- bv->at(XMLTREE(tree)->ParentNode(results[i]))=true;
- free(cstr);
- CAMLreturn ((value) bv);
-}
-
-/*************************************************************************/
-
-/**
- * XMLTree bindings
- * All of the functions here call the _unsafe version and implement the logics themselves
- * (test for NULLT and so on). This avoids one indirection + one call when the tests fails.
- */
-
-
-NoAlloc extern "C" value caml_xml_tree_root(value tree){
- return (Val_int(XMLTREE_ROOT));
-}
-
-NoAlloc extern "C" value caml_xml_tree_size(value tree){
- return (Val_int(XMLTREE(tree)->Size()));
-}
-
-NoAlloc extern "C" value caml_xml_tree_num_tags(value tree){
- return (Val_int(XMLTREE(tree)->NumTags()));
-}
-
-NoAlloc extern "C" value caml_xml_tree_subtree_size(value tree, value node){
- return (Val_int(XMLTREE(tree)->SubtreeSize(TREENODEVAL(node))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_subtree_tags(value tree, value node, value tag){
- return (Val_int(XMLTREE(tree)->SubtreeTags(TREENODEVAL(node), TAGVAL(tag))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_subtree_elements(value tree, value node){
- return (Val_int(XMLTREE(tree)->SubtreeElements(TREENODEVAL(node))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_is_leaf(value tree, value node){
- return (Val_bool(XMLTREE(tree)->IsLeaf(TREENODEVAL(node))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_is_ancestor(value tree, value node1,value node2){
- return (Val_bool(XMLTREE(tree)->IsAncestor(TREENODEVAL(node1),TREENODEVAL(node2))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_is_child(value tree, value node1,value node2){
- return (Val_bool(XMLTREE(tree)->IsChild(TREENODEVAL(node1),TREENODEVAL(node2))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_is_first_child(value tree, value node){
- return (Val_bool(XMLTREE(tree)->IsFirstChild(TREENODEVAL(node))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_num_children(value tree, value node){
- return (Val_int(XMLTREE(tree)->NumChildren(TREENODEVAL(node))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_child_number(value tree, value node){
- return (Val_int(XMLTREE(tree)->ChildNumber(TREENODEVAL(node))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_depth(value tree, value node){
- return (Val_int(XMLTREE(tree)->Depth(TREENODEVAL(node))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_preorder(value tree, value node){
- return (Val_int(XMLTREE(tree)->Preorder(TREENODEVAL(node))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_postorder(value tree, value node){
- return (Val_int(XMLTREE(tree)->Postorder(TREENODEVAL(node))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_tag(value tree, value node){
- return (Val_int(XMLTREE(tree)->Tag(TREENODEVAL(node))));
-}
-
-extern "C" value caml_xml_tree_doc_ids(value tree, value node){
- CAMLparam2(tree,node);
- CAMLlocal1(tuple);
- range ids;
- tuple = caml_alloc(2,0);
- ids = XMLTREE(tree)->DocIds(Int_val(node));
- Store_field(tuple,0,Val_int(ids.min));
- Store_field(tuple,1,Val_int(ids.max));
- CAMLreturn (tuple);
-}
-
-NoAlloc extern "C" value caml_xml_tree_parent(value tree, value node){
- return (Val_int(XMLTREE(tree)->Parent(TREENODEVAL(node))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_child(value tree, value node,value idx){
- return (Val_int(XMLTREE(tree)->Child(TREENODEVAL(node),Int_val(idx))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_first_child(value tree, value node){
- return (Val_int(XMLTREE(tree)->FirstChild(TREENODEVAL(node))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_first_element(value tree, value node){
- return (Val_int(XMLTREE(tree)->FirstElement(TREENODEVAL(node))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_last_child(value tree, value node){
- return (Val_int(XMLTREE(tree)->LastChild(TREENODEVAL(node))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_next_sibling(value tree, value node){
- return (Val_int(XMLTREE(tree)->NextSibling(TREENODEVAL(node))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_next_element(value tree, value node){
- return (Val_int(XMLTREE(tree)->NextElement(TREENODEVAL(node))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_prev_sibling(value tree, value node){
- return (Val_int(XMLTREE(tree)->PrevSibling(TREENODEVAL(node))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_tagged_child(value tree, value node,value tag){
- return (Val_int(XMLTREE(tree)->TaggedChild(TREENODEVAL(node),TAGVAL(tag))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_select_child(value tree, value node,value tags){
- return (Val_int(XMLTREE(tree)->SelectChild(TREENODEVAL(node), HSET(tags))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_tagged_following_sibling(value tree, value node,value tag){
- return (Val_int(XMLTREE(tree)->TaggedFollowingSibling(TREENODEVAL(node),TAGVAL(tag))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_select_following_sibling(value tree, value node,value tags){
- return (Val_int(XMLTREE(tree)->SelectFollowingSibling(TREENODEVAL(node), HSET(tags))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_tagged_descendant(value tree, value node, value tag){
- return (Val_int(XMLTREE(tree)->TaggedDescendant(TREENODEVAL(node), TAGVAL(tag))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_select_descendant(value tree, value node, value tags){
- return (Val_int(XMLTREE(tree)->SelectDescendant(TREENODEVAL(node), HSET(tags))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_tagged_preceding(value tree, value node, value tag){
- return (Val_int(XMLTREE(tree)->TaggedPreceding(TREENODEVAL(node), TAGVAL(tag))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_tagged_following(value tree, value node, value tag){
- return (Val_int(XMLTREE(tree)->TaggedFollowing(TREENODEVAL(node), TAGVAL(tag))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_tagged_following_below(value tree, value node, value tag, value ancestor){
- return (Val_int(XMLTREE(tree)->TaggedFollowingBelow(TREENODEVAL(node), TAGVAL(tag), TREENODEVAL(ancestor))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_select_following_below(value tree, value node, value tags, value ancestor){
- return (Val_int(XMLTREE(tree)->SelectFollowingBelow(TREENODEVAL(node), HSET(tags), TREENODEVAL(ancestor))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_tagged_following_before(value tree, value node, value tag, value closing){
- return (Val_int(XMLTREE(tree)->TaggedFollowingBefore(TREENODEVAL(node), TAGVAL(tag), TREENODEVAL(closing))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_select_following_before(value tree, value node, value tags, value closing){
- return (Val_int(XMLTREE(tree)->SelectFollowingBefore(TREENODEVAL(node), HSET(tags), TREENODEVAL(closing))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_tagged_ancestor(value tree, value node, value tag){
- return (Val_int(XMLTREE(tree)->TaggedAncestor(TREENODEVAL(node), TAGVAL(tag))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_my_text(value tree, value node){
- return (Val_int(XMLTREE(tree)->MyText(TREENODEVAL(node))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_my_text_unsafe(value tree, value node){
- return (Val_int(XMLTREE(tree)->MyTextUnsafe(TREENODEVAL(node))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_text_xml_id(value tree, value docid){
- return (Val_int(XMLTREE(tree)->TextXMLId(Int_val(docid))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_node_xml_id(value tree, value node){
- return (Val_int(XMLTREE(tree)->NodeXMLId(TREENODEVAL(node))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_parent_node(value tree, value docid){
- return (Val_int(XMLTREE(tree)->ParentNode(Int_val(docid))));
-}
-/*
-NoAlloc extern "C" value caml_xml_tree_prev_node(value tree, value docid){
- return (Val_int(XMLTREE(tree)->PrevNode(Int_val(docid))));
-}
-*/
-extern "C" value caml_xml_tree_get_tag_id(value tree, value tagname){
- CAMLparam2(tree,tagname);
- CAMLlocal1(res);
- unsigned char* ctagname = (unsigned char*) strdup(String_val(tagname));
- res = Val_int(XMLTREE(tree)->GetTagId(ctagname));
- free(ctagname);
- CAMLreturn(res);
-}
-
-extern "C" value caml_xml_tree_get_tag_name(value tree, value tag){
- CAMLparam2(tree,tag);
- CAMLlocal1(res);
- res = caml_copy_string((const char*) XMLTREE(tree)->GetTagNameByRef(TAGVAL(tag)));
- CAMLreturn(res);
-}
-
-extern "C" value caml_xml_tree_register_tag(value tree, value tagname){
- CAMLparam2(tree,tagname);
- CAMLlocal1(res);
- unsigned char* ctagname = (unsigned char*) strdup(String_val(tagname));
- res = Val_int(XMLTREE(tree)->RegisterTag(ctagname));
- free(ctagname);
- CAMLreturn(res);
-}
-
-
-NoAlloc extern "C" value caml_xml_tree_get_text_collection(value tree){
- return((value) XMLTREE(tree)->getTextCollection());
-}
-
-NoAlloc extern "C" value caml_xml_tree_closing(value tree, value node){
- return (Val_int(XMLTREE(tree)->Closing(TREENODEVAL(node))));
-}
-
-NoAlloc extern "C" value caml_xml_tree_is_open(value tree, value node){
- return (Val_bool(XMLTREE(tree)->IsOpen(TREENODEVAL(node))));
-}
-
-
-
-NoAlloc extern "C" value caml_xml_tree_nullt(value unit){
- return (NULLT);
-}
-
-NoAlloc extern "C" value caml_unordered_set_length(value hset){
- return (Val_int((HSET(hset))->size()));
-}
-
-extern "C" value caml_unordered_set_alloc(value unit){
- CAMLparam1(unit);
- CAMLlocal1(hset);
- hset = caml_alloc_custom(&set_ops,sizeof(TagIdSet*),1,2);
- TagIdSet* ht = new TagIdSet();
- memcpy(Data_custom_val(hset),&ht,sizeof(TagIdSet*));
- CAMLreturn (hset);
-}
-
-NoAlloc extern "C" value caml_unordered_set_set(value set, value v){
- HSET(set)->insert((int) Int_val(v));
- return (Val_unit);
-}
-
-NoAlloc extern "C" value caml_result_set_create(value size){
- results* res = (results*) malloc(sizeof(results));
- results r = createResults (Int_val(size));
- res->n = r.n;
- res->lgn = r.lgn;
- res->tree = r.tree;
- return ((value) (res));
-}
-
-NoAlloc extern "C" value caml_result_set_set(value result,value p){
- setResult ( *((results*) result), Int_val(p));
- return (Val_unit);
-}
-
-NoAlloc extern "C" value caml_result_set_clear(value result,value p1,value p2){
- clearRange ( *((results*) result), Int_val(p1), Int_val(p2));
- return (Val_unit);
-}
-
-NoAlloc extern "C" value caml_result_set_next(value result,value p){
- results r;
- r = *( (results *) result);
- return (Val_int(nextResult(r, Int_val(p))));
-}
-
-NoAlloc extern "C" value caml_result_set_count(value result){
- results r;
- r = *( (results *) result);
- return (Val_int(countResult(r)));
-}
-
-NoAlloc extern "C" value caml_xml_tree_print(value tree,value node,value fd){
- CAMLparam3(tree,node,fd);
- XMLTREE(tree)->Print(Int_val(fd),TREENODEVAL(node), false);
- CAMLreturn(Val_unit);
-}
-
-NoAlloc extern "C" value caml_set_tag_bits(value result, value tag, value tree, value node)
-{
- results r;
- XMLTree *t = XMLTREE(Field(tree,0));
- treeNode opening = TREENODEVAL(node);
- treeNode closing = t->Closing(opening);
- TagType target_tag = Int_val(tag);
- treeNode first = t->TaggedDescendant(opening,target_tag);
- r = *( (results *) result);
- opening = first;
- while (opening != NULLT){
- setResult(r,opening);
- opening = t->TaggedFollowingBefore(opening,target_tag,closing);
- };
- return(Val_int(first));
-}
-
-
-NoAlloc extern "C" value caml_bit_vector_create(value size){
- return (value) (new vector<bool>(Int_val(size),false));
-}
-
-NoAlloc extern "C" value caml_bit_vector_free(value vect){
- delete ((vector<bool>*) vect);
- return Val_unit;
-}
-
-NoAlloc extern "C" value caml_bit_vector_get(value vect,value idx){
- return Val_bool (((vector<bool>*)vect)->at(Int_val(idx)));
-}
-
-NoAlloc extern "C" value caml_bit_vector_set(value vect,value idx,value b){
- (((vector<bool>*)vect)->at(Int_val(idx))) = (bool) Bool_val(b);
- return Val_unit;
-}
-
-NoAlloc extern "C" value caml_bit_vector_next(value vect,value idx){
- vector<bool>* bv = (vector<bool>*) vect;
- int i = Int_val(idx);
- int l = bv->size();
- while (i < l && !((*bv)[i]))
- i++;
- return Val_int(i);
-}
-NoAlloc extern "C" value caml_bit_vector_prev(value vect,value idx){
- int i = Int_val(idx);
- while (i >= 0 && !((*((vector<bool>*) vect))[i]))
- i--;
- return Val_int(i);
-}
-
-extern "C" value caml_bit_vector_node_array(value vect){
- CAMLparam0();
- CAMLlocal1(res);
- vector<bool>* bv = (vector<bool>*) vect;
- vector<treeNode> vr;
- int l = bv->size();
- int i = 0;
- while (i < l){
- if ((*bv)[i]) vr.push_back(i);
- i++;
- };
- l = vr.size();
- res = caml_alloc_tuple(l);
- for(i=0;i<l;i++)
- caml_initialize(&Field(res,i),Val_int(vr[i]));
- CAMLreturn (res);
-}
-
-
-int iterjump(XMLTree* tree, treeNode node, TagType tag, treeNode anc){
- if (node == NULLT)
- return 0;
- else {
- return
- 1
- + iterjump(tree,tree->TaggedDescendant(node,tag),tag,node)
- + iterjump(tree,tree->TaggedFollowingBelow(node,tag,anc),tag,anc);
- };
-}
-
-extern "C" value caml_benchmark_jump(value tree,value tag){
- int count;
- treeNode root = XMLTREE(tree)->FirstChild(0);
- root = XMLTREE(tree)->FirstChild(root);
- count = iterjump(XMLTREE(tree), root , Int_val(tag),0);
- return Val_int(count);
-}
-
-int iterfcns(XMLTree* tree, treeNode node){
- if (node == NULLT)
- return 0;
- else {
- int tmp = 1;
- tmp += iterfcns(tree,tree->FirstChild(node));
- tmp += iterfcns(tree,tree->NextSibling(node));
- return tmp;
- };
-}
-
-int iterfene(XMLTree* tree, treeNode node){
- if (node == NULLT)
- return 0;
- else {
- int tmp = 1;
- tmp += iterfene(tree,tree->FirstElement(node));
- tmp += iterfene(tree,tree->NextElement(node));
- return tmp;
- };
-}
-
-extern "C" value caml_benchmark_fcns(value tree){
- int i = iterfcns(XMLTREE(tree),0);
- return Val_int(i);
-
-}
-
-extern "C" value caml_benchmark_fene(value tree){
- int i = iterfene(XMLTREE(tree),0);
- return Val_int(i);
-
-}
-
-int iterlcps(XMLTree* tree, treeNode node){
- if (node == NULLT)
- return 0;
- else {
- int x = tree->Tag(node);
- x += iterlcps(tree,tree->LastChild(node));
- x += iterlcps(tree,tree->PrevSibling(node));
- return x;
- };
-}
-
-int fulliterative(XMLTree* tree){
- treeNode current = tree->Root();
- treeNode next = NULLT;
- int count = 1; //the root
-
- do {
-
-
- while ((next = tree->FirstChild(current)) != NULLT) {
- current = next;
- count++;
- };
-
- while ( (next = tree->NextSibling(current)) == NULLT){
- current = tree->Parent(current);
- if (current == NULLT) return count;
- }
- current = next;
- count++;
- } while (true);
-
-}
-
-extern "C" value caml_benchmark_iter(value tree){
- return Val_int(fulliterative(XMLTREE(tree)));
-}
-
-extern "C" value caml_benchmark_lcps(value tree){
- iterlcps(XMLTREE(tree),0);
- return Val_unit;
-
-}
-
-extern "C" {
-
- typedef struct dummy_node_ {
- struct dummy_node_* first;
- struct dummy_node_* next;
- } dummy_node;
-
-
- dummy_node * new_dummy_node () {
-
- dummy_node * node = (dummy_node*) malloc(sizeof(dummy_node));
- if (!node)
- printf("%s","Cannot allocate memory\n");
-
- return node;
- }
-
- void free_tree(dummy_node * node){
- if (node){
- free_tree(node->first);
- free_tree(node->next);
- free(node);
- };
- return;
- }
-
- dummy_node * create_tree(XMLTree* tree, treeNode i, int mode){
- if (i == NULLT)
- return NULL;
- else {
- dummy_node * f, *n, *r;
- //mode = i % 3;
- if (mode == 0) r = new_dummy_node();
- f = create_tree(tree,tree->FirstChild(i), mode);
- if (mode == 1) r = new_dummy_node();
- n = create_tree(tree,tree->NextSibling(i), mode);
- if (mode == 2) r = new_dummy_node();
- r->first = f;
- r->next = n;
- return r;
- };
- }
-
- int iter_tree(dummy_node * n){
- if (n == NULL)
- return 0;
- else
- return 1 + iter_tree (n->first) + iter_tree (n->next);
- }
-}
-extern "C" value caml_build_pointers(value tree, value mode){
- return ((value) create_tree(XMLTREE(Field(tree,0)),0, Int_val(mode)));
-}
-
-extern "C" value caml_iter_pointers (value node){
- return Val_int(iter_tree((dummy_node*) node));
-
-}
-
-extern "C" value caml_free_pointers(value node){
- free_tree((dummy_node*) node);
- return Val_unit;
-}