// matcher.h
/* JSMatcher is our boolean expression evaluator for "where" clauses */
/**
* Copyright (C) 2008 10gen Inc.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License, version 3,
* as published by the Free Software Foundation.
*
* 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 Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see .
*/
#pragma once
#include "jsobj.h"
#include
namespace mongo {
class RegexMatcher {
public:
const char *fieldName;
pcrecpp::RE *re;
RegexMatcher() {
re = 0;
}
~RegexMatcher() {
delete re;
}
};
struct element_lt
{
bool operator()(const BSONElement& l, const BSONElement& r) const
{
int x = (int) l.type() - (int) r.type();
if ( x == ( NumberInt - NumberDouble ) || x == ( NumberDouble - NumberInt ) );
else if ( x < 0 ) return true;
else if ( x > 0 ) return false;
return compareElementValues(l,r) < 0;
}
};
class BasicMatcher {
public:
BasicMatcher(){
}
BasicMatcher( BSONElement _e , int _op ) : toMatch( _e ) , compareOp( _op ){
if ( _op == BSONObj::opMOD ){
BSONObj o = _e.embeddedObject().firstElement().embeddedObject();
mod = o["0"].numberInt();
modm = o["1"].numberInt();
uassert( "mod can't be 0" , mod );
}
}
BasicMatcher( BSONElement _e , int _op , const BSONObj& array ) : toMatch( _e ) , compareOp( _op ){
myset.reset( new set() );
BSONObjIterator i( array );
while ( i.more() ) {
BSONElement ie = i.next();
myset->insert(ie);
}
}
BSONElement toMatch;
int compareOp;
shared_ptr< set > myset;
int mod;
int modm;
};
// SQL where clause equivalent
class Where;
class DiskLoc;
/* Match BSON objects against a query pattern.
e.g.
db.foo.find( { a : 3 } );
{ a : 3 } is the pattern object.
GT/LT:
{ a : { $gt : 3 } }
Not equal:
{ a : { $ne : 3 } }
TODO: we should rewrite the matcher to be more an AST style.
*/
class JSMatcher : boost::noncopyable {
int matchesDotted(
const char *fieldName,
const BSONElement& toMatch, const BSONObj& obj,
int compareOp, const BasicMatcher& bm, bool *deep, bool isArr = false);
int matchesNe(
const char *fieldName,
const BSONElement &toMatch, const BSONObj &obj,
const BasicMatcher&bm, bool *deep);
public:
static int opDirection(int op) {
return op <= BSONObj::LTE ? -1 : 1;
}
// Only specify constrainIndexKey if matches() will be called with
// index keys having empty string field names.
JSMatcher(const BSONObj &pattern, const BSONObj &constrainIndexKey = BSONObj());
~JSMatcher();
/* deep - means we looked into arrays for a match
*/
bool matches(const BSONObj& j, bool *deep = 0);
bool keyMatch() const { return !all && !haveSize; }
private:
void addBasic(const BSONElement &e, int c) {
// TODO May want to selectively ignore these element types based on op type.
if ( e.type() == MinKey || e.type() == MaxKey )
return;
basics.push_back( BasicMatcher( e , c ) );
}
int valuesMatch(const BSONElement& l, const BSONElement& r, int op, const BasicMatcher& bm , bool *deep=0);
Where *where; // set if query uses $where
BSONObj jsobj; // the query pattern. e.g., { name: "joe" }
BSONObj constrainIndexKey_;
vector basics;
// int n; // # of basicmatcher items
bool haveSize;
bool all;
RegexMatcher regexs[4];
int nRegex;
// so we delete the mem when we're done:
vector< shared_ptr< BSONObjBuilder > > builders_;
};
// If match succeeds on index key, then attempt to match full record.
class KeyValJSMatcher : boost::noncopyable {
public:
KeyValJSMatcher(const BSONObj &pattern, const BSONObj &indexKeyPattern);
bool matches(const BSONObj &j, bool *deep = 0);
bool matches(const BSONObj &key, const DiskLoc &recLoc, bool *deep = 0);
private:
JSMatcher keyMatcher_;
JSMatcher recordMatcher_;
};
} // namespace mongo