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// @file queryutil.h - Utility classes representing ranges of valid BSONElement values for a query.
/* Copyright 2009 10gen Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#pragma once
#include "jsobj.h"
#include "indexkey.h"
namespace mongo {
/**
* One side of an interval of valid BSONElements, specified by a value and a
* boolean indicating whether the interval includes the value.
*/
struct FieldBound {
BSONElement _bound;
bool _inclusive;
bool operator==( const FieldBound &other ) const {
return _bound.woCompare( other._bound ) == 0 &&
_inclusive == other._inclusive;
}
void flipInclusive() { _inclusive = !_inclusive; }
};
/** A closed interval composed of a lower and an upper FieldBound. */
struct FieldInterval {
FieldInterval() : _cachedEquality( -1 ) {}
FieldInterval( const BSONElement& e ) : _cachedEquality( -1 ) {
_lower._bound = _upper._bound = e;
_lower._inclusive = _upper._inclusive = true;
}
FieldBound _lower;
FieldBound _upper;
/** @return true iff no single element can be contained in the interval. */
bool strictValid() const {
int cmp = _lower._bound.woCompare( _upper._bound, false );
return ( cmp < 0 || ( cmp == 0 && _lower._inclusive && _upper._inclusive ) );
}
/** @return true iff the interval is an equality constraint. */
bool equality() const;
mutable int _cachedEquality;
string toString() const;
};
/**
* An ordered list of FieldIntervals expressing constraints on valid
* BSONElement values for a field.
*/
class FieldRange {
public:
FieldRange( const BSONElement &e , bool singleKey , bool isNot=false , bool optimize=true );
/** @return Range intersection with 'other'. */
const FieldRange &operator&=( const FieldRange &other );
/** @return Range union with 'other'. */
const FieldRange &operator|=( const FieldRange &other );
/** @return Range of elements elements included in 'this' but not 'other'. */
const FieldRange &operator-=( const FieldRange &other );
/** @return true iff this range is a subset of 'other'. */
bool operator<=( const FieldRange &other ) const;
/**
* If there are any valid values for this range, the extreme values can
* be extracted.
*/
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; }
/** @return true iff this range expresses a single equality interval. */
bool equality() const;
/** @return true if all the intervals for this range are equalities */
bool inQuery() const;
/** @return true iff this range does not include every BSONElement */
bool nontrivial() const;
/** @return true iff this range matches no BSONElements. */
bool empty() const { return _intervals.empty(); }
/** Empty the range so it matches no BSONElements. */
void makeEmpty() { _intervals.clear(); }
const vector<FieldInterval> &intervals() const { return _intervals; }
string getSpecial() const { return _special; }
/** Make component intervals noninclusive. */
void setExclusiveBounds();
/**
* Constructs a range where all FieldIntervals and FieldBounds are in
* the opposite order of the current range.
* NOTE the resulting intervals might not be strictValid().
*/
void reverse( FieldRange &ret ) const;
string toString() const;
private:
BSONObj addObj( const BSONObj &o );
void finishOperation( const vector<FieldInterval> &newIntervals, const FieldRange &other );
vector<FieldInterval> _intervals;
// Owns memory for our BSONElements.
vector<BSONObj> _objData;
string _special;
bool _singleKey;
};
/**
* A BoundList contains intervals specified by inclusive start
* and end bounds. The intervals should be nonoverlapping and occur in
* the specified direction of traversal. For example, given a simple index {i:1}
* and direction +1, one valid BoundList is: (1, 2); (4, 6). The same BoundList
* would be valid for index {i:-1} with direction -1.
*/
typedef vector<pair<BSONObj,BSONObj> > BoundList;
class QueryPattern;
/**
* A set of FieldRanges determined from constraints on the fields of a query,
* that may be used to determine index bounds.
*/
class FieldRangeSet {
public:
friend class OrRangeGenerator;
friend class FieldRangeVector;
FieldRangeSet( const char *ns, const BSONObj &query , bool singleKey , bool optimize=true );
/** @return true if there is a nontrivial range for the given field. */
bool hasRange( const char *fieldName ) const {
map<string, FieldRange>::const_iterator f = _ranges.find( fieldName );
return f != _ranges.end();
}
/** @return range for the given field. */
const FieldRange &range( const char *fieldName ) const;
/** @return range for the given field. */
FieldRange &range( const char *fieldName );
/** @return the number of nontrivial ranges. */
int nNontrivialRanges() const;
/** @return the field ranges comprising this set. */
const map<string,FieldRange> &ranges() const { return _ranges; }
/**
* @return true if a match could be possible on every field. Generally this
* is not useful information for a single key FieldRangeSet and
* matchPossibleForIndex() should be used instead.
*/
bool matchPossible() const;
/**
* @return true if a match could be possible given the value of _singleKey
* and index key 'keyPattern'.
* @param keyPattern May be {} or {$natural:1} for a non index scan.
*/
bool matchPossibleForIndex( const BSONObj &keyPattern ) const;
const char *ns() const { return _ns; }
/**
* @return a simplified query from the extreme values of the nontrivial
* fields.
* @param fields If specified, the fields of the returned object are
* ordered to match those of 'fields'.
*/
BSONObj simplifiedQuery( const BSONObj &fields = BSONObj() ) const;
QueryPattern pattern( const BSONObj &sort = BSONObj() ) const;
string getSpecial() const;
/**
* @return a FieldRangeSet approximation of the documents in 'this' but
* not in 'other'. The approximation will be a superset of the documents
* in 'this' but not 'other'.
*/
const FieldRangeSet &operator-=( const FieldRangeSet &other );
/** @return intersection of 'this' with 'other'. */
const FieldRangeSet &operator&=( const FieldRangeSet &other );
/**
* @return an ordered list of bounds generated using an index key pattern
* and traversal direction.
*
* NOTE This function is deprecated in the query optimizer and only
* currently used by the sharding code.
*/
BoundList indexBounds( const BSONObj &keyPattern, int direction ) const;
/**
* @return - A new FieldRangeSet based on this FieldRangeSet, but with only
* a subset of the fields.
* @param fields - Only fields which are represented as field names in this object
* will be included in the returned FieldRangeSet.
*/
FieldRangeSet *subset( const BSONObj &fields ) const;
bool singleKey() const { return _singleKey; }
BSONObj originalQuery() const { return _queries[ 0 ]; }
private:
void appendQueries( const FieldRangeSet &other );
void makeEmpty();
void processQueryField( const BSONElement &e, bool optimize );
void processOpElement( const char *fieldName, const BSONElement &f, bool isNot, bool optimize );
static FieldRange *__singleKeyTrivialRange;
static FieldRange *__multiKeyTrivialRange;
const FieldRange &trivialRange() const;
map<string,FieldRange> _ranges;
const char *_ns;
// Owns memory for FieldRange BSONElements.
vector<BSONObj> _queries;
bool _singleKey;
};
class NamespaceDetails;
/**
* A pair of FieldRangeSets, one representing constraints for single key
* indexes and the other representing constraints for multi key indexes and
* unindexed scans. In several member functions the caller is asked to
* supply an index so that the implementation may utilize the proper
* FieldRangeSet and return results that are appropriate with respect to that
* supplied index.
*/
class FieldRangeSetPair {
public:
FieldRangeSetPair( const char *ns, const BSONObj &query, bool optimize=true )
:_singleKey( ns, query, true, optimize ), _multiKey( ns, query, false, optimize ) {}
/**
* @return the appropriate single or multi key FieldRangeSet for the specified index.
* @param idxNo -1 for non index scan.
*/
const FieldRangeSet &frsForIndex( const NamespaceDetails* nsd, int idxNo ) const;
/** @return a field range in the single key FieldRangeSet. */
const FieldRange &singleKeyRange( const char *fieldName ) const {
return _singleKey.range( fieldName );
}
/** @return true if the range limits are equivalent to an empty query. */
bool noNontrivialRanges() const;
/** @return false if a match is impossible regardless of index. */
bool matchPossible() const { return _multiKey.matchPossible(); }
/**
* @return false if a match is impossible on the specified index.
* @param idxNo -1 for non index scan.
*/
bool matchPossibleForIndex( NamespaceDetails *d, int idxNo, const BSONObj &keyPattern ) const;
const char *ns() const { return _singleKey.ns(); }
string getSpecial() const { return _singleKey.getSpecial(); }
/** Intersect with another FieldRangeSetPair. */
FieldRangeSetPair &operator&=( const FieldRangeSetPair &other );
/**
* Subtract a FieldRangeSet, generally one expressing a range that has
* already been scanned.
*/
FieldRangeSetPair &operator-=( const FieldRangeSet &scanned );
BoundList singleKeyIndexBounds( const BSONObj &keyPattern, int direction ) const {
return _singleKey.indexBounds( keyPattern, direction );
}
BSONObj originalQuery() const { return _singleKey.originalQuery(); }
private:
FieldRangeSetPair( const FieldRangeSet &singleKey, const FieldRangeSet &multiKey )
:_singleKey( singleKey ), _multiKey( multiKey ) {}
void assertValidIndex( const NamespaceDetails *d, int idxNo ) const;
void assertValidIndexOrNoIndex( const NamespaceDetails *d, int idxNo ) const;
/** matchPossibleForIndex() must be true. */
BSONObj simplifiedQueryForIndex( NamespaceDetails *d, int idxNo, const BSONObj &keyPattern ) const;
FieldRangeSet _singleKey;
FieldRangeSet _multiKey;
friend class OrRangeGenerator;
friend struct QueryUtilIndexed;
};
class IndexSpec;
/**
* An ordered list of fields and their FieldRanges, corresponding to valid
* index keys for a given index spec.
*/
class FieldRangeVector {
public:
/**
* @param frs The valid ranges for all fields, as defined by the query spec
* @param indexSpec The index spec (key pattern and info)
* @param direction The direction of index traversal
*/
FieldRangeVector( const FieldRangeSet &frs, const IndexSpec &indexSpec, int direction );
/** @return the number of index ranges represented by 'this' */
long long size();
/** @return starting point for an index traversal. */
BSONObj startKey() const;
/** @return end point for an index traversal. */
BSONObj endKey() const;
/** @return a client readable representation of 'this' */
BSONObj obj() const;
const IndexSpec& getSpec(){ return _indexSpec; }
/**
* @return true iff the provided document matches valid ranges on all
* of this FieldRangeVector's fields, which is the case iff this document
* would be returned while scanning the index corresponding to this
* FieldRangeVector. This function is used for $or clause deduping.
*/
bool matches( const BSONObj &obj ) const;
/**
* @return first key of 'obj' that would be encountered by a forward
* index scan using this FieldRangeVector, BSONObj() if no such key.
*/
BSONObj firstMatch( const BSONObj &obj ) const;
private:
int matchingLowElement( const BSONElement &e, int i, bool direction, bool &lowEquality ) const;
bool matchesElement( const BSONElement &e, int i, bool direction ) const;
bool matchesKey( const BSONObj &key ) const;
vector<FieldRange> _ranges;
const IndexSpec _indexSpec;
int _direction;
vector<BSONObj> _queries; // make sure mem owned
friend class FieldRangeVectorIterator;
};
/**
* Helper class for iterating through an ordered representation of keys
* to find those keys that match a specified FieldRangeVector.
*/
class FieldRangeVectorIterator {
public:
FieldRangeVectorIterator( const FieldRangeVector &v ) : _v( v ), _i( _v._ranges.size(), -1 ), _cmp( _v._ranges.size(), 0 ), _inc( _v._ranges.size(), false ), _after() {
}
static BSONObj minObject() {
BSONObjBuilder b; b.appendMinKey( "" );
return b.obj();
}
static BSONObj maxObject() {
BSONObjBuilder b; b.appendMaxKey( "" );
return b.obj();
}
/**
* @return Suggested advance method, based on current key.
* -2 Iteration is complete, no need to advance.
* -1 Advance to the next key, without skipping.
* >=0 Skip parameter. If @return is r, skip to the key comprised
* of the first r elements of curr followed by the (r+1)th and
* remaining elements of cmp() (with inclusivity specified by
* the (r+1)th and remaining elements of inc()). If after() is
* true, skip past this key not to it.
*/
int advance( const BSONObj &curr );
const vector<const BSONElement *> &cmp() const { return _cmp; }
const vector<bool> &inc() const { return _inc; }
bool after() const { return _after; }
void prepDive();
void setZero( int i ) { for( int j = i; j < (int)_i.size(); ++j ) _i[ j ] = 0; }
void setMinus( int i ) { for( int j = i; j < (int)_i.size(); ++j ) _i[ j ] = -1; }
bool ok() { return _i[ 0 ] < (int)_v._ranges[ 0 ].intervals().size(); }
BSONObj startKey();
// temp
BSONObj endKey();
private:
const FieldRangeVector &_v;
vector<int> _i;
vector<const BSONElement*> _cmp;
vector<bool> _inc;
bool _after;
};
/**
* As we iterate through $or clauses this class generates a FieldRangeSetPair
* for the current $or clause, in some cases by excluding ranges that were
* included in a previous clause.
*/
class OrRangeGenerator {
public:
OrRangeGenerator( const char *ns, const BSONObj &query , bool optimize=true );
/**
* @return true iff we are done scanning $or clauses. if there's a
* useless or clause, we won't use or index ranges to help with scanning.
*/
bool orFinished() const { return _orFound && _orSets.empty(); }
/** Iterates to the next $or clause by removing the current $or clause. */
void popOrClause( NamespaceDetails *nsd, int idxNo, const BSONObj &keyPattern );
void popOrClauseSingleKey();
/** @return FieldRangeSetPair for the current $or clause. */
FieldRangeSetPair *topFrsp() const;
/**
* @return original FieldRangeSetPair for the current $or clause. While the
* original bounds are looser, they are composed of fewer ranges and it
* is faster to do operations with them; when they can be used instead of
* more precise bounds, they should.
*/
FieldRangeSetPair *topFrspOriginal() const;
string getSpecial() const { return _baseSet.getSpecial(); }
bool moreOrClauses() const { return !_orSets.empty(); }
private:
void assertMayPopOrClause();
void popOrClause( const FieldRangeSet *toDiff, NamespaceDetails *d = 0, int idxNo = -1, const BSONObj &keyPattern = BSONObj() );
FieldRangeSetPair _baseSet;
list<FieldRangeSetPair> _orSets;
list<FieldRangeSetPair> _originalOrSets;
// ensure memory is owned
list<FieldRangeSetPair> _oldOrSets;
bool _orFound;
friend struct QueryUtilIndexed;
};
/** returns a string that when used as a matcher, would match a super set of regex()
returns "" for complex regular expressions
used to optimize queries in some simple regex cases that start with '^'
if purePrefix != NULL, sets it to whether the regex can be converted to a range query
*/
string simpleRegex(const char* regex, const char* flags, bool* purePrefix=NULL);
/** returns the upper bound of a query that matches prefix */
string simpleRegexEnd( string prefix );
long long applySkipLimit( long long num , const BSONObj& cmd );
} // namespace mongo
#include "queryutil-inl.h"
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