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queryutil.h
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queryutil.h
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// queryutil.h
/**
* 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 <http://www.gnu.org/licenses/>.
*/
#pragma once
#include "jsobj.h"
namespace mongo {
struct FieldBound {
BSONElement bound_;
bool inclusive_;
bool operator==( const FieldBound &other ) const {
return bound_.woCompare( other.bound_ ) == 0 &&
inclusive_ == other.inclusive_;
}
};
struct FieldInterval {
FieldBound lower_;
FieldBound upper_;
bool valid() const {
int cmp = lower_.bound_.woCompare( upper_.bound_, false );
return ( cmp < 0 || ( cmp == 0 && lower_.inclusive_ && upper_.inclusive_ ) );
}
};
// range of a field's value that may be determined from query -- used to
// determine index limits
class FieldRange {
public:
FieldRange( const BSONElement &e = BSONObj().firstElement() , bool optimize=true );
const FieldRange &operator&=( const FieldRange &other );
BSONElement min() const { assert( !empty() ); return intervals_[ 0 ].lower_.bound_; }
BSONElement max() const { assert( !empty() ); return intervals_[ intervals_.size() - 1 ].upper_.bound_; }
bool minInclusive() const { assert( !empty() ); return intervals_[ 0 ].lower_.inclusive_; }
bool maxInclusive() const { assert( !empty() ); return intervals_[ intervals_.size() - 1 ].upper_.inclusive_; }
bool equality() const {
return
!empty() &&
min().woCompare( max(), false ) == 0 &&
maxInclusive() &&
minInclusive();
}
bool nontrivial() const {
return
minKey.firstElement().woCompare( min(), false ) != 0 ||
maxKey.firstElement().woCompare( max(), false ) != 0;
}
bool empty() const { return intervals_.empty(); }
const vector< FieldInterval > &intervals() const { return intervals_; }
private:
BSONObj addObj( const BSONObj &o );
string simpleRegexEnd( string regex );
vector< FieldInterval > intervals_;
vector< BSONObj > objData_;
};
// implements query pattern matching, used to determine if a query is
// similar to an earlier query and should use the same plan
class QueryPattern {
public:
friend class FieldRangeSet;
enum Type {
Equality,
LowerBound,
UpperBound,
UpperAndLowerBound
};
// for testing only, speed unimportant
bool operator==( const QueryPattern &other ) const {
bool less = operator<( other );
bool more = other.operator<( *this );
assert( !( less && more ) );
return !( less || more );
}
bool operator!=( const QueryPattern &other ) const {
return !operator==( other );
}
bool operator<( const QueryPattern &other ) const {
map< string, Type >::const_iterator i = fieldTypes_.begin();
map< string, Type >::const_iterator j = other.fieldTypes_.begin();
while( i != fieldTypes_.end() ) {
if ( j == other.fieldTypes_.end() )
return false;
if ( i->first < j->first )
return true;
else if ( i->first > j->first )
return false;
if ( i->second < j->second )
return true;
else if ( i->second > j->second )
return false;
++i;
++j;
}
if ( j != other.fieldTypes_.end() )
return true;
return sort_.woCompare( other.sort_ ) < 0;
}
private:
QueryPattern() {}
void setSort( const BSONObj sort ) {
sort_ = normalizeSort( sort );
}
BSONObj static normalizeSort( const BSONObj &spec ) {
if ( spec.isEmpty() )
return spec;
int direction = ( spec.firstElement().number() >= 0 ) ? 1 : -1;
BSONObjIterator i( spec );
BSONObjBuilder b;
while( i.moreWithEOO() ) {
BSONElement e = i.next();
if ( e.eoo() )
break;
b.append( e.fieldName(), direction * ( ( e.number() >= 0 ) ? -1 : 1 ) );
}
return b.obj();
}
map< string, Type > fieldTypes_;
BSONObj sort_;
};
// ranges of fields' value that may be determined from query -- used to
// determine index limits
class FieldRangeSet {
public:
FieldRangeSet( const char *ns, const BSONObj &query , bool optimize=true );
const FieldRange &range( const char *fieldName ) const {
map< string, FieldRange >::const_iterator f = ranges_.find( fieldName );
if ( f == ranges_.end() )
return trivialRange();
return f->second;
}
int nNontrivialRanges() const {
int count = 0;
for( map< string, FieldRange >::const_iterator i = ranges_.begin(); i != ranges_.end(); ++i )
if ( i->second.nontrivial() )
++count;
return count;
}
const char *ns() const { return ns_; }
BSONObj query() const { return query_; }
// if fields is specified, order fields of returned object to match those of 'fields'
BSONObj simplifiedQuery( const BSONObj &fields = BSONObj() ) const;
bool matchPossible() const {
for( map< string, FieldRange >::const_iterator i = ranges_.begin(); i != ranges_.end(); ++i )
if ( i->second.empty() )
return false;
return true;
}
QueryPattern pattern( const BSONObj &sort = BSONObj() ) const;
BoundList indexBounds( const BSONObj &keyPattern, int direction ) const;
private:
static FieldRange *trivialRange_;
static FieldRange &trivialRange();
mutable map< string, FieldRange > ranges_;
const char *ns_;
BSONObj query_;
};
/**
used for doing field limiting
*/
class FieldMatcher {
public:
void add( const BSONObj& o );
int size() const;
bool matches( const string& s ) const;
void append( BSONObjBuilder& b , const BSONElement& e ) const;
BSONObj getSpec() const;
private:
void extractDotted( const string& path , const BSONObj& o , BSONObjBuilder& b ) const ;
multimap<string,string> fields; // { 'a' : 1 , 'b.c' : 1 } ==>> [ a -> '' , b -> c ]
};
} // namespace mongo