/* Copyright (C) 2012 J.F.Dockes
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the
* Free Software Foundation, Inc.,
* 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#ifndef TEST_SYNFAMILY
#include "autoconfig.h"
#include <iostream>
#include <algorithm>
#include MEMORY_INCLUDE
#include "debuglog.h"
#include "cstr.h"
#include "xmacros.h"
#include "synfamily.h"
#include "smallut.h"
using namespace std;
namespace Rcl {
bool XapWritableSynFamily::createMember(const string& membername)
{
string ermsg;
try {
m_wdb.add_synonym(memberskey(), membername);
} XCATCHERROR(ermsg);
if (!ermsg.empty()) {
LOGERR(("XapSynFamily::createMember: error: %s\n", ermsg.c_str()));
return false;
}
return true;
}
bool XapWritableSynFamily::deleteMember(const string& membername)
{
string key = entryprefix(membername);
for (Xapian::TermIterator xit = m_wdb.synonym_keys_begin(key);
xit != m_wdb.synonym_keys_end(key); xit++) {
m_wdb.clear_synonyms(*xit);
}
m_wdb.remove_synonym(memberskey(), membername);
return true;
}
bool XapSynFamily::getMembers(vector<string>& members)
{
string key = memberskey();
string ermsg;
try {
for (Xapian::TermIterator xit = m_rdb.synonyms_begin(key);
xit != m_rdb.synonyms_end(key); xit++) {
members.push_back(*xit);
}
} XCATCHERROR(ermsg);
if (!ermsg.empty()) {
LOGERR(("XapSynFamily::getMembers: xapian error %s\n", ermsg.c_str()));
return false;
}
return true;
}
bool XapSynFamily::listMap(const string& membername)
{
string key = entryprefix(membername);
string ermsg;
try {
for (Xapian::TermIterator kit = m_rdb.synonym_keys_begin(key);
kit != m_rdb.synonym_keys_end(key); kit++) {
cout << "[" << *kit << "] -> ";
for (Xapian::TermIterator xit = m_rdb.synonyms_begin(*kit);
xit != m_rdb.synonyms_end(*kit); xit++) {
cout << *xit << " ";
}
cout << endl;
}
} XCATCHERROR(ermsg);
if (!ermsg.empty()) {
LOGERR(("XapSynFamily::listMap: xapian error %s\n", ermsg.c_str()));
return false;
}
vector<string>members;
getMembers(members);
cout << "All family members: ";
for (vector<string>::const_iterator it = members.begin();
it != members.end(); it++) {
cout << *it << " ";
}
cout << endl;
return true;
}
bool XapSynFamily::synExpand(const string& member, const string& term,
vector<string>& result)
{
LOGDEB(("XapSynFamily::synExpand:(%s) %s for %s\n",
m_prefix1.c_str(), term.c_str(), member.c_str()));
string key = entryprefix(member) + term;
string ermsg;
try {
for (Xapian::TermIterator xit = m_rdb.synonyms_begin(key);
xit != m_rdb.synonyms_end(key); xit++) {
LOGDEB2((" Pushing %s\n", (*xit).c_str()));
result.push_back(*xit);
}
} XCATCHERROR(ermsg);
if (!ermsg.empty()) {
LOGERR(("synFamily::synExpand: error for member [%s] term [%s]\n",
member.c_str(), term.c_str()));
result.push_back(term);
return false;
}
// If the input term is not in the list, add it
if (find(result.begin(), result.end(), term) == result.end()) {
result.push_back(term);
}
return true;
}
bool XapComputableSynFamMember::synExpand(const string& term,
vector<string>& result,
SynTermTrans *filtertrans)
{
string root = (*m_trans)(term);
string filter_root;
if (filtertrans)
filter_root = (*filtertrans)(term);
string key = m_prefix + root;
LOGDEB(("XapCompSynFamMbr::synExpand([%s]): term [%s] root [%s] \n",
m_prefix.c_str(), term.c_str(), root.c_str()));
string ermsg;
try {
for (Xapian::TermIterator xit = m_family.getdb().synonyms_begin(key);
xit != m_family.getdb().synonyms_end(key); xit++) {
if (!filtertrans || (*filtertrans)(*xit) == filter_root) {
LOGDEB2((" Pushing %s\n", (*xit).c_str()));
result.push_back(*xit);
}
}
} XCATCHERROR(ermsg);
if (!ermsg.empty()) {
LOGERR(("XapSynDb::synExpand: error for term [%s] (key %s)\n",
term.c_str(), key.c_str()));
result.push_back(term);
return false;
}
// If the input term and root are not in the list, add them
if (find(result.begin(), result.end(), term) == result.end()) {
LOGDEB2((" Pushing %s\n", term.c_str()));
result.push_back(term);
}
if (root != term &&
find(result.begin(), result.end(), root) == result.end()) {
if (!filtertrans || (*filtertrans)(root) == filter_root) {
LOGDEB2((" Pushing %s\n", root.c_str()));
result.push_back(root);
}
}
LOGDEB(("XapCompSynFamMbr::synExpand([%s]): term [%s] -> [%s]\n",
m_prefix.c_str(), term.c_str(), stringsToString(result).c_str()));
return true;
}
bool XapComputableSynFamMember::synKeyExpand(StrMatcher* inexp,
vector<string>& result,
SynTermTrans *filtertrans)
{
LOGDEB(("XapCompSynFam::synKeyExpand: [%s]\n", inexp->exp().c_str()));
// If set, compute filtering term (e.g.: only case-folded)
STD_SHARED_PTR<StrMatcher> filter_exp;
if (filtertrans) {
filter_exp = STD_SHARED_PTR<StrMatcher>(inexp->clone());
filter_exp->setExp((*filtertrans)(inexp->exp()));
}
// Transform input into our key format (e.g.: case-folded + diac-stripped),
// and prepend prefix
inexp->setExp(m_prefix + (*m_trans)(inexp->exp()));
// Find the initial section before any special chars for skipping the keys
string::size_type es = inexp->baseprefixlen();
string is = inexp->exp().substr(0, es);
string::size_type preflen = m_prefix.size();
LOGDEB2(("XapCompSynFam::synKeyExpand: init section: [%s]\n", is.c_str()));
string ermsg;
try {
for (Xapian::TermIterator xit = m_family.getdb().synonym_keys_begin(is);
xit != m_family.getdb().synonym_keys_end(is); xit++) {
LOGDEB2((" Checking1 [%s] against [%s]\n", (*xit).c_str(),
inexp->exp().c_str()));
if (!inexp->match(*xit))
continue;
// Push all the synonyms if they match the secondary filter
for (Xapian::TermIterator xit1 =
m_family.getdb().synonyms_begin(*xit);
xit1 != m_family.getdb().synonyms_end(*xit); xit1++) {
string term = *xit1;
if (filter_exp) {
string term1 = (*filtertrans)(term);
LOGDEB2((" Testing [%s] against [%s]\n",
term1.c_str(), filter_exp->exp().c_str()));
if (!filter_exp->match(term1)) {
continue;
}
}
LOGDEB2(("XapCompSynFam::keyWildExpand: [%s]\n",
(*xit1).c_str()));
result.push_back(*xit1);
}
// Same with key itself
string term = (*xit).substr(preflen);
if (filter_exp) {
string term1 = (*filtertrans)(term);
LOGDEB2((" Testing [%s] against [%s]\n",
term1.c_str(), filter_exp->exp().c_str()));
if (!filter_exp->match(term1)) {
continue;
}
}
LOGDEB2(("XapCompSynFam::keyWildExpand: [%s]\n", term.c_str()));
result.push_back(term);
}
} XCATCHERROR(ermsg);
if (!ermsg.empty()) {
LOGERR(("XapCompSynFam::synKeyExpand: xapian: [%s]\n", ermsg.c_str()));
return false;
}
LOGDEB1(("XapCompSynFam::synKeyExpand: final: [%s]\n",
stringsToString(result).c_str()));
return true;
}
} // Namespace Rcl
#else // TEST_SYNFAMILY
#include "autoconfig.h"
#include <stdio.h>
#include <stdlib.h>
#include <signal.h>
#include <strings.h>
#include <iostream>
#include <string>
#include <vector>
using namespace std;
#include "xapian.h"
#include "smallut.h"
#include "pathut.h"
#include "xmacros.h"
#include "synfamily.h"
static string thisprog;
static int op_flags;
#define OPT_D 0x1
#define OPT_L 0x2
#define OPT_a 0x4
#define OPT_u 0x8
#define OPT_d 0x10
#define OPT_l 0x20
#define OPT_s 0x40
#define OPT_e 0x80
static string usage =
" -d <dbdir> {-s|-a|-u} database dir and synfamily: stem accents/case ustem\n"
" -l : list members\n"
" -L <member>: list entries for given member\n"
" -e <member> <key> : list expansion for given member and key\n"
" -D <member>: delete member\n"
" \n\n"
;
static void Usage(void)
{
cerr << thisprog << ": usage:\n" << usage;
exit(1);
}
int main(int argc, char **argv)
{
string dbdir(path_tildexpand("~/.recoll/xapiandb"));
string outencoding = "UTF-8";
string member;
string key;
thisprog = argv[0];
argc--; argv++;
while (argc > 0 && **argv == '-') {
(*argv)++;
if (!(**argv))
/* Cas du "adb - core" */
Usage();
while (**argv)
switch (*(*argv)++) {
case 'a': op_flags |= OPT_a; break;
case 'D': op_flags |= OPT_D; break;
case 'd': op_flags |= OPT_d; if (argc < 2) Usage();
dbdir = *(++argv); argc--;
goto b1;
case 'e': op_flags |= OPT_e; if (argc < 3) Usage();
member = *(++argv);argc--;
key = *(++argv); argc--;
goto b1;
case 'l': op_flags |= OPT_l; break;
case 'L': op_flags |= OPT_L; if (argc < 2) Usage();
member = *(++argv); argc--;
goto b1;
case 's': op_flags |= OPT_s; break;
case 'u': op_flags |= OPT_u; break;
default: Usage(); break;
}
b1: argc--; argv++;
}
if (argc != 0)
Usage();
string familyname;
if (op_flags & OPT_a) {
familyname = Rcl::synFamDiCa;
} else if (op_flags & OPT_u) {
familyname = Rcl::synFamStemUnac;
} else {
familyname = Rcl::synFamStem;
}
if ((op_flags & (OPT_l|OPT_L|OPT_D|OPT_e)) == 0)
Usage();
string ermsg;
try {
if ((op_flags & (OPT_D)) == 0) { // Need write ?
Xapian::Database db(dbdir);
Rcl::XapSynFamily fam(db, familyname);
if (op_flags & OPT_l) {
vector<string> members;
if (!fam.getMembers(members)) {
cerr << "getMembers error" << endl;
return 1;
}
string out;
stringsToString(members, out);
cout << "Family: " << familyname << " Members: " << out << endl;
} else if (op_flags & OPT_L) {
fam.listMap(member);
} else if (op_flags & OPT_e) {
vector<string> exp;
if (!fam.synExpand(member, key, exp)) {
cerr << "expand error" << endl;
return 1;
}
string out;
stringsToString(exp, out);
cout << "Family: " << familyname << " Key: " << key
<< " Expansion: " << out << endl;
} else {
Usage();
}
} else {
Xapian::WritableDatabase db(dbdir, Xapian::DB_CREATE_OR_OPEN);
Rcl::XapWritableSynFamily fam(db, familyname);
if (op_flags & OPT_D) {
} else {
Usage();
}
}
} XCATCHERROR (ermsg);
if (!ermsg.empty()) {
cerr << "Xapian Exception: " << ermsg << endl;
return 1;
}
return 0;
}
#endif // TEST_SYNFAMILY