// queryoptimizertests.cpp : query optimizer unit tests // /** * Copyright (C) 2009 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 . */ #include "stdafx.h" #include "../db/queryoptimizer.h" #include "../db/db.h" #include "../db/dbhelpers.h" #include "../db/instance.h" #include "../db/query.h" #include "dbtests.h" namespace mongo { extern BSONObj id_obj; } // namespace mongo namespace QueryOptimizerTests { namespace FieldRangeTests { class Base { public: virtual ~Base() {} void run() { FieldRangeSet s( "ns", query() ); checkElt( lower(), s.range( "a" ).min() ); checkElt( upper(), s.range( "a" ).max() ); ASSERT_EQUALS( lowerInclusive(), s.range( "a" ).minInclusive() ); ASSERT_EQUALS( upperInclusive(), s.range( "a" ).maxInclusive() ); } protected: virtual BSONObj query() = 0; virtual BSONElement lower() { return minKey.firstElement(); } virtual bool lowerInclusive() { return true; } virtual BSONElement upper() { return maxKey.firstElement(); } virtual bool upperInclusive() { return true; } private: static void checkElt( BSONElement expected, BSONElement actual ) { if ( expected.woCompare( actual, false ) ) { stringstream ss; ss << "expected: " << expected << ", got: " << actual; FAIL( ss.str() ); } } }; class NumericBase : public Base { public: NumericBase(){ o = BSON( "min" << -numeric_limits::max() << "max" << numeric_limits::max() ); } virtual BSONElement lower() { return o["min"]; } virtual BSONElement upper() { return o["max"]; } private: BSONObj o; }; class Empty : public Base { virtual BSONObj query() { return BSONObj(); } }; class Eq : public Base { public: Eq() : o_( BSON( "a" << 1 ) ) {} virtual BSONObj query() { return o_; } virtual BSONElement lower() { return o_.firstElement(); } virtual BSONElement upper() { return o_.firstElement(); } BSONObj o_; }; class DupEq : public Eq { public: virtual BSONObj query() { return BSON( "a" << 1 << "b" << 2 << "a" << 1 ); } }; class Lt : public NumericBase { public: Lt() : o_( BSON( "-" << 1 ) ) {} virtual BSONObj query() { return BSON( "a" << LT << 1 ); } virtual BSONElement upper() { return o_.firstElement(); } virtual bool upperInclusive() { return false; } BSONObj o_; }; class Lte : public Lt { virtual BSONObj query() { return BSON( "a" << LTE << 1 ); } virtual bool upperInclusive() { return true; } }; class Gt : public NumericBase { public: Gt() : o_( BSON( "-" << 1 ) ) {} virtual BSONObj query() { return BSON( "a" << GT << 1 ); } virtual BSONElement lower() { return o_.firstElement(); } virtual bool lowerInclusive() { return false; } BSONObj o_; }; class Gte : public Gt { virtual BSONObj query() { return BSON( "a" << GTE << 1 ); } virtual bool lowerInclusive() { return true; } }; class TwoLt : public Lt { virtual BSONObj query() { return BSON( "a" << LT << 1 << LT << 5 ); } }; class TwoGt : public Gt { virtual BSONObj query() { return BSON( "a" << GT << 0 << GT << 1 ); } }; class EqGte : public Eq { virtual BSONObj query() { return BSON( "a" << 1 << "a" << GTE << 1 ); } }; class EqGteInvalid { public: void run() { FieldRangeSet fbs( "ns", BSON( "a" << 1 << "a" << GTE << 2 ) ); ASSERT( !fbs.matchPossible() ); } }; class Regex : public Base { public: Regex() : o1_( BSON( "" << "abc" ) ), o2_( BSON( "" << "abd" ) ) {} virtual BSONObj query() { BSONObjBuilder b; b.appendRegex( "a", "^abc" ); return b.obj(); } virtual BSONElement lower() { return o1_.firstElement(); } virtual BSONElement upper() { return o2_.firstElement(); } virtual bool upperInclusive() { return false; } BSONObj o1_, o2_; }; class UnhelpfulRegex : public Base { virtual BSONObj query() { BSONObjBuilder b; b.appendRegex( "a", "abc" ); return b.obj(); } }; class In : public Base { public: In() : o1_( BSON( "-" << -3 ) ), o2_( BSON( "-" << 44 ) ) {} virtual BSONObj query() { vector< int > vals; vals.push_back( 4 ); vals.push_back( 8 ); vals.push_back( 44 ); vals.push_back( -1 ); vals.push_back( -3 ); vals.push_back( 0 ); BSONObjBuilder bb; bb.append( "$in", vals ); BSONObjBuilder b; b.append( "a", bb.done() ); return b.obj(); } virtual BSONElement lower() { return o1_.firstElement(); } virtual BSONElement upper() { return o2_.firstElement(); } BSONObj o1_, o2_; }; class Equality { public: void run() { FieldRangeSet s( "ns", BSON( "a" << 1 ) ); ASSERT( s.range( "a" ).equality() ); FieldRangeSet s2( "ns", BSON( "a" << GTE << 1 << LTE << 1 ) ); ASSERT( s2.range( "a" ).equality() ); FieldRangeSet s3( "ns", BSON( "a" << GT << 1 << LTE << 1 ) ); ASSERT( !s3.range( "a" ).equality() ); FieldRangeSet s4( "ns", BSON( "a" << GTE << 1 << LT << 1 ) ); ASSERT( !s4.range( "a" ).equality() ); FieldRangeSet s5( "ns", BSON( "a" << GTE << 1 << LTE << 1 << GT << 1 ) ); ASSERT( !s5.range( "a" ).equality() ); FieldRangeSet s6( "ns", BSON( "a" << GTE << 1 << LTE << 1 << LT << 1 ) ); ASSERT( !s6.range( "a" ).equality() ); } }; class SimplifiedQuery { public: void run() { FieldRangeSet fbs( "ns", BSON( "a" << GT << 1 << GT << 5 << LT << 10 << "b" << 4 << "c" << LT << 4 << LT << 6 << "d" << GTE << 0 << GT << 0 << "e" << GTE << 0 << LTE << 10 ) ); BSONObj simple = fbs.simplifiedQuery(); cout << "simple: " << simple << endl; ASSERT( !simple.getObjectField( "a" ).woCompare( fromjson( "{$gt:5,$lt:10}" ) ) ); ASSERT_EQUALS( 4, simple.getIntField( "b" ) ); ASSERT( !simple.getObjectField( "c" ).woCompare( BSON("$gte" << -numeric_limits::max() << "$lt" << 4 ) ) ); ASSERT( !simple.getObjectField( "d" ).woCompare( BSON("$gt" << 0 << "$lte" << numeric_limits::max() ) ) ); ASSERT( !simple.getObjectField( "e" ).woCompare( fromjson( "{$gte:0,$lte:10}" ) ) ); } }; class QueryPatternTest { public: void run() { ASSERT( p( BSON( "a" << 1 ) ) == p( BSON( "a" << 1 ) ) ); ASSERT( p( BSON( "a" << 1 ) ) == p( BSON( "a" << 5 ) ) ); ASSERT( p( BSON( "a" << 1 ) ) != p( BSON( "b" << 1 ) ) ); ASSERT( p( BSON( "a" << 1 ) ) != p( BSON( "a" << LTE << 1 ) ) ); ASSERT( p( BSON( "a" << 1 ) ) != p( BSON( "a" << 1 << "b" << 2 ) ) ); ASSERT( p( BSON( "a" << 1 << "b" << 3 ) ) != p( BSON( "a" << 1 ) ) ); ASSERT( p( BSON( "a" << LT << 1 ) ) == p( BSON( "a" << LTE << 5 ) ) ); ASSERT( p( BSON( "a" << LT << 1 << GTE << 0 ) ) == p( BSON( "a" << LTE << 5 << GTE << 0 ) ) ); ASSERT( p( BSON( "a" << 1 ) ) < p( BSON( "a" << 1 << "b" << 1 ) ) ); ASSERT( !( p( BSON( "a" << 1 << "b" << 1 ) ) < p( BSON( "a" << 1 ) ) ) ); ASSERT( p( BSON( "a" << 1 ), BSON( "b" << 1 ) ) == p( BSON( "a" << 4 ), BSON( "b" << "a" ) ) ); ASSERT( p( BSON( "a" << 1 ), BSON( "b" << 1 ) ) == p( BSON( "a" << 4 ), BSON( "b" << -1 ) ) ); ASSERT( p( BSON( "a" << 1 ), BSON( "b" << 1 ) ) != p( BSON( "a" << 4 ), BSON( "c" << 1 ) ) ); ASSERT( p( BSON( "a" << 1 ), BSON( "b" << 1 << "c" << -1 ) ) == p( BSON( "a" << 4 ), BSON( "b" << -1 << "c" << 1 ) ) ); ASSERT( p( BSON( "a" << 1 ), BSON( "b" << 1 << "c" << 1 ) ) != p( BSON( "a" << 4 ), BSON( "b" << 1 ) ) ); ASSERT( p( BSON( "a" << 1 ), BSON( "b" << 1 ) ) != p( BSON( "a" << 4 ), BSON( "b" << 1 << "c" << 1 ) ) ); } private: static QueryPattern p( const BSONObj &query, const BSONObj &sort = BSONObj() ) { return FieldRangeSet( "", query ).pattern( sort ); } }; class NoWhere { public: void run() { ASSERT_EQUALS( 0, FieldRangeSet( "ns", BSON( "$where" << 1 ) ).nNontrivialRanges() ); } }; class Numeric { public: void run() { FieldRangeSet f( "", BSON( "a" << 1 ) ); ASSERT( f.range( "a" ).min().woCompare( BSON( "a" << 2.0 ).firstElement() ) < 0 ); ASSERT( f.range( "a" ).min().woCompare( BSON( "a" << 0.0 ).firstElement() ) > 0 ); } }; class InLowerBound { public: void run() { FieldRangeSet f( "", fromjson( "{a:{$gt:4,$in:[1,2,3,4,5,6]}}" ) ); ASSERT( f.range( "a" ).min().woCompare( BSON( "a" << 5.0 ).firstElement(), false ) == 0 ); ASSERT( f.range( "a" ).max().woCompare( BSON( "a" << 6.0 ).firstElement(), false ) == 0 ); } }; class InUpperBound { public: void run() { FieldRangeSet f( "", fromjson( "{a:{$lt:4,$in:[1,2,3,4,5,6]}}" ) ); ASSERT( f.range( "a" ).min().woCompare( BSON( "a" << 1.0 ).firstElement(), false ) == 0 ); ASSERT( f.range( "a" ).max().woCompare( BSON( "a" << 3.0 ).firstElement(), false ) == 0 ); } }; class MultiBound { public: void run() { FieldRangeSet frs1( "", fromjson( "{a:{$in:[1,3,5,7,9]}}" ) ); FieldRangeSet frs2( "", fromjson( "{a:{$in:[2,3,5,8,9]}}" ) ); FieldRange fr1 = frs1.range( "a" ); FieldRange fr2 = frs2.range( "a" ); fr1 &= fr2; ASSERT( fr1.min().woCompare( BSON( "a" << 3.0 ).firstElement(), false ) == 0 ); ASSERT( fr1.max().woCompare( BSON( "a" << 9.0 ).firstElement(), false ) == 0 ); vector< FieldInterval > intervals = fr1.intervals(); vector< FieldInterval >::const_iterator j = intervals.begin(); double expected[] = { 3, 5, 9 }; for( int i = 0; i < 3; ++i, ++j ) { ASSERT_EQUALS( expected[ i ], j->lower_.bound_.number() ); ASSERT( j->lower_.inclusive_ ); ASSERT( j->lower_ == j->upper_ ); } ASSERT( j == intervals.end() ); } }; } // namespace FieldRangeTests namespace QueryPlanTests { class Base { public: Base() : indexNum_( 0 ) { setClient( ns() ); string err; userCreateNS( ns(), BSONObj(), err, false ); } ~Base() { if ( !nsd() ) return; string s( ns() ); dropNS( s ); } protected: static const char *ns() { return "unittests.QueryPlanTests"; } static NamespaceDetails *nsd() { return nsdetails( ns() ); } IndexDetails *index( const BSONObj &key ) { stringstream ss; ss << indexNum_++; string name = ss.str(); client_.resetIndexCache(); client_.ensureIndex( ns(), key, false, name.c_str() ); NamespaceDetails *d = nsd(); for( int i = 0; i < d->nIndexes; ++i ) { if ( d->idx(i).indexName() == name || ( d->idx(i).isIdIndex() && IndexDetails::isIdIndexPattern( key ) ) ) return &d->idx(i); } assert( false ); return 0; } int indexno( const BSONObj &key ) { return nsd()->idxNo( *index(key) ); } BSONObj startKey( const QueryPlan &p ) const { BoundList bl = p.indexBounds(); return bl[ 0 ].first.getOwned(); } BSONObj endKey( const QueryPlan &p ) const { BoundList bl = p.indexBounds(); return bl[ bl.size() - 1 ].second.getOwned(); } private: dblock lk_; int indexNum_; static DBDirectClient client_; }; DBDirectClient Base::client_; // There's a limit of 10 indexes total, make sure not to exceed this in a given test. #define INDEXNO(x) nsd()->idxNo( *this->index( BSON(x) ) ) #define INDEX(x) this->index( BSON(x) ) auto_ptr< FieldRangeSet > FieldRangeSet_GLOBAL; #define FBS(x) ( FieldRangeSet_GLOBAL.reset( new FieldRangeSet( ns(), x ) ), *FieldRangeSet_GLOBAL ) class NoIndex : public Base { public: void run() { QueryPlan p( nsd(), -1, FBS( BSONObj() ), BSONObj() ); ASSERT( !p.optimal() ); ASSERT( !p.scanAndOrderRequired() ); ASSERT( !p.exactKeyMatch() ); } }; class SimpleOrder : public Base { public: void run() { BSONObjBuilder b; b.appendMinKey( "" ); BSONObj start = b.obj(); BSONObjBuilder b2; b2.appendMaxKey( "" ); BSONObj end = b2.obj(); QueryPlan p( nsd(), INDEXNO( "a" << 1 ), FBS( BSONObj() ), BSON( "a" << 1 ) ); ASSERT( !p.scanAndOrderRequired() ); ASSERT( !startKey( p ).woCompare( start ) ); ASSERT( !endKey( p ).woCompare( end ) ); QueryPlan p2( nsd(), INDEXNO( "a" << 1 << "b" << 1 ), FBS( BSONObj() ), BSON( "a" << 1 << "b" << 1 ) ); ASSERT( !p2.scanAndOrderRequired() ); QueryPlan p3( nsd(), INDEXNO( "a" << 1 ), FBS( BSONObj() ), BSON( "b" << 1 ) ); ASSERT( p3.scanAndOrderRequired() ); ASSERT( !startKey( p3 ).woCompare( start ) ); ASSERT( !endKey( p3 ).woCompare( end ) ); } }; class MoreIndexThanNeeded : public Base { public: void run() { QueryPlan p( nsd(), INDEXNO( "a" << 1 << "b" << 1 ), FBS( BSONObj() ), BSON( "a" << 1 ) ); ASSERT( !p.scanAndOrderRequired() ); } }; class IndexSigns : public Base { public: void run() { QueryPlan p( nsd(), INDEXNO( "a" << 1 << "b" << -1 ) , FBS( BSONObj() ), BSON( "a" << 1 << "b" << -1 ) ); ASSERT( !p.scanAndOrderRequired() ); ASSERT_EQUALS( 1, p.direction() ); QueryPlan p2( nsd(), INDEXNO( "a" << 1 << "b" << 1 ), FBS( BSONObj() ), BSON( "a" << 1 << "b" << -1 ) ); ASSERT( p2.scanAndOrderRequired() ); ASSERT_EQUALS( 0, p2.direction() ); QueryPlan p3( nsd(), indexno( id_obj ), FBS( BSONObj() ), BSON( "_id" << 1 ) ); ASSERT( !p3.scanAndOrderRequired() ); ASSERT_EQUALS( 1, p3.direction() ); } }; class IndexReverse : public Base { public: void run() { BSONObjBuilder b; b.appendMinKey( "" ); b.appendMaxKey( "" ); BSONObj start = b.obj(); BSONObjBuilder b2; b2.appendMaxKey( "" ); b2.appendMinKey( "" ); BSONObj end = b2.obj(); QueryPlan p( nsd(), INDEXNO( "a" << -1 << "b" << 1 ),FBS( BSONObj() ), BSON( "a" << 1 << "b" << -1 ) ); ASSERT( !p.scanAndOrderRequired() ); ASSERT_EQUALS( -1, p.direction() ); ASSERT( !startKey( p ).woCompare( start ) ); ASSERT( !endKey( p ).woCompare( end ) ); QueryPlan p2( nsd(), INDEXNO( "a" << 1 << "b" << 1 ), FBS( BSONObj() ), BSON( "a" << -1 << "b" << -1 ) ); ASSERT( !p2.scanAndOrderRequired() ); ASSERT_EQUALS( -1, p2.direction() ); QueryPlan p3( nsd(), INDEXNO( "a" << 1 << "b" << -1 ), FBS( BSONObj() ), BSON( "a" << -1 << "b" << -1 ) ); ASSERT( p3.scanAndOrderRequired() ); ASSERT_EQUALS( 0, p3.direction() ); } }; class NoOrder : public Base { public: void run() { BSONObjBuilder b; b.append( "", 3 ); b.appendMinKey( "" ); BSONObj start = b.obj(); BSONObjBuilder b2; b2.append( "", 3 ); b2.appendMaxKey( "" ); BSONObj end = b2.obj(); QueryPlan p( nsd(), INDEXNO( "a" << -1 << "b" << 1 ), FBS( BSON( "a" << 3 ) ), BSONObj() ); ASSERT( !p.scanAndOrderRequired() ); ASSERT( !startKey( p ).woCompare( start ) ); ASSERT( !endKey( p ).woCompare( end ) ); QueryPlan p2( nsd(), INDEXNO( "a" << -1 << "b" << 1 ), FBS( BSON( "a" << 3 ) ), BSONObj() ); ASSERT( !p2.scanAndOrderRequired() ); ASSERT( !startKey( p ).woCompare( start ) ); ASSERT( !endKey( p ).woCompare( end ) ); } }; class EqualWithOrder : public Base { public: void run() { QueryPlan p( nsd(), INDEXNO( "a" << 1 << "b" << 1 ), FBS( BSON( "a" << 4 ) ), BSON( "b" << 1 ) ); ASSERT( !p.scanAndOrderRequired() ); QueryPlan p2( nsd(), INDEXNO( "a" << 1 << "b" << 1 << "c" << 1 ), FBS( BSON( "b" << 4 ) ), BSON( "a" << 1 << "c" << 1 ) ); ASSERT( !p2.scanAndOrderRequired() ); QueryPlan p3( nsd(), INDEXNO( "a" << 1 << "b" << 1 ), FBS( BSON( "b" << 4 ) ), BSON( "a" << 1 << "c" << 1 ) ); ASSERT( p3.scanAndOrderRequired() ); } }; class Optimal : public Base { public: void run() { QueryPlan p( nsd(), INDEXNO( "a" << 1 ), FBS( BSONObj() ), BSON( "a" << 1 ) ); ASSERT( p.optimal() ); QueryPlan p2( nsd(), INDEXNO( "a" << 1 << "b" << 1 ), FBS( BSONObj() ), BSON( "a" << 1 ) ); ASSERT( p2.optimal() ); QueryPlan p3( nsd(), INDEXNO( "a" << 1 << "b" << 1 ), FBS( BSON( "a" << 1 ) ), BSON( "a" << 1 ) ); ASSERT( p3.optimal() ); QueryPlan p4( nsd(), INDEXNO( "a" << 1 << "b" << 1 ), FBS( BSON( "b" << 1 ) ), BSON( "a" << 1 ) ); ASSERT( !p4.optimal() ); QueryPlan p5( nsd(), INDEXNO( "a" << 1 << "b" << 1 ), FBS( BSON( "a" << 1 ) ), BSON( "b" << 1 ) ); ASSERT( p5.optimal() ); QueryPlan p6( nsd(), INDEXNO( "a" << 1 << "b" << 1 ), FBS( BSON( "b" << 1 ) ), BSON( "b" << 1 ) ); ASSERT( !p6.optimal() ); QueryPlan p7( nsd(), INDEXNO( "a" << 1 << "b" << 1 ), FBS( BSON( "a" << 1 << "b" << 1 ) ), BSON( "a" << 1 ) ); ASSERT( p7.optimal() ); QueryPlan p8( nsd(), INDEXNO( "a" << 1 << "b" << 1 ), FBS( BSON( "a" << 1 << "b" << LT << 1 ) ), BSON( "a" << 1 ) ); ASSERT( p8.optimal() ); QueryPlan p9( nsd(), INDEXNO( "a" << 1 << "b" << 1 << "c" << 1 ), FBS( BSON( "a" << 1 << "b" << LT << 1 ) ), BSON( "a" << 1 ) ); ASSERT( p9.optimal() ); } }; class MoreOptimal : public Base { public: void run() { QueryPlan p10( nsd(), INDEXNO( "a" << 1 << "b" << 1 << "c" << 1 ), FBS( BSON( "a" << 1 ) ), BSONObj() ); ASSERT( p10.optimal() ); QueryPlan p11( nsd(), INDEXNO( "a" << 1 << "b" << 1 << "c" << 1 ), FBS( BSON( "a" << 1 << "b" << LT << 1 ) ), BSONObj() ); ASSERT( p11.optimal() ); QueryPlan p12( nsd(), INDEXNO( "a" << 1 << "b" << 1 << "c" << 1 ), FBS( BSON( "a" << LT << 1 ) ), BSONObj() ); ASSERT( p12.optimal() ); QueryPlan p13( nsd(), INDEXNO( "a" << 1 << "b" << 1 << "c" << 1 ), FBS( BSON( "a" << LT << 1 ) ), BSON( "a" << 1 ) ); ASSERT( p13.optimal() ); } }; class KeyMatch : public Base { public: void run() { QueryPlan p( nsd(), INDEXNO( "a" << 1 ), FBS( BSONObj() ), BSON( "a" << 1 ) ); ASSERT( !p.exactKeyMatch() ); QueryPlan p2( nsd(), INDEXNO( "b" << 1 << "a" << 1 ), FBS( BSONObj() ), BSON( "a" << 1 ) ); ASSERT( !p2.exactKeyMatch() ); QueryPlan p3( nsd(), INDEXNO( "b" << 1 << "a" << 1 ), FBS( BSON( "b" << "z" ) ), BSON( "a" << 1 ) ); ASSERT( !p3.exactKeyMatch() ); QueryPlan p4( nsd(), INDEXNO( "b" << 1 << "a" << 1 << "c" << 1 ), FBS( BSON( "c" << "y" << "b" << "z" ) ), BSON( "a" << 1 ) ); ASSERT( !p4.exactKeyMatch() ); QueryPlan p5( nsd(), INDEXNO( "b" << 1 << "a" << 1 << "c" << 1 ), FBS( BSON( "c" << "y" << "b" << "z" ) ), BSONObj() ); ASSERT( !p5.exactKeyMatch() ); QueryPlan p6( nsd(), INDEXNO( "b" << 1 << "a" << 1 << "c" << 1 ), FBS( BSON( "c" << LT << "y" << "b" << GT << "z" ) ), BSONObj() ); ASSERT( !p6.exactKeyMatch() ); QueryPlan p7( nsd(), INDEXNO( "b" << 1 ), FBS( BSONObj() ), BSON( "a" << 1 ) ); ASSERT( !p7.exactKeyMatch() ); QueryPlan p8( nsd(), INDEXNO( "a" << 1 << "b" << 1 ), FBS( BSON( "b" << "y" << "a" << "z" ) ), BSONObj() ); ASSERT( p8.exactKeyMatch() ); QueryPlan p9( nsd(), INDEXNO( "a" << 1 ), FBS( BSON( "a" << "z" ) ), BSON( "a" << 1 ) ); ASSERT( p9.exactKeyMatch() ); } }; class MoreKeyMatch : public Base { public: void run() { QueryPlan p( nsd(), INDEXNO( "a" << 1 ), FBS( BSON( "a" << "r" << "b" << NE << "q" ) ), BSON( "a" << 1 ) ); ASSERT( !p.exactKeyMatch() ); } }; class ExactKeyQueryTypes : public Base { public: void run() { QueryPlan p( nsd(), INDEXNO( "a" << 1 ), FBS( BSON( "a" << "b" ) ), BSONObj() ); ASSERT( p.exactKeyMatch() ); QueryPlan p2( nsd(), INDEXNO( "a" << 1 ), FBS( BSON( "a" << 4 ) ), BSONObj() ); ASSERT( !p2.exactKeyMatch() ); QueryPlan p3( nsd(), INDEXNO( "a" << 1 ), FBS( BSON( "a" << BSON( "c" << "d" ) ) ), BSONObj() ); ASSERT( !p3.exactKeyMatch() ); BSONObjBuilder b; b.appendRegex( "a", "^ddd" ); QueryPlan p4( nsd(), INDEXNO( "a" << 1 ), FBS( b.obj() ), BSONObj() ); ASSERT( !p4.exactKeyMatch() ); QueryPlan p5( nsd(), INDEXNO( "a" << 1 << "b" << 1 ), FBS( BSON( "a" << "z" << "b" << 4 ) ), BSONObj() ); ASSERT( !p5.exactKeyMatch() ); } }; class Unhelpful : public Base { public: void run() { QueryPlan p( nsd(), INDEXNO( "a" << 1 << "b" << 1 ), FBS( BSON( "b" << 1 ) ), BSONObj() ); ASSERT( !p.range( "a" ).nontrivial() ); ASSERT( p.unhelpful() ); QueryPlan p2( nsd(), INDEXNO( "a" << 1 << "b" << 1 ), FBS( BSON( "b" << 1 << "c" << 1 ) ), BSON( "a" << 1 ) ); ASSERT( !p2.scanAndOrderRequired() ); ASSERT( !p2.range( "a" ).nontrivial() ); ASSERT( !p2.unhelpful() ); QueryPlan p3( nsd(), INDEXNO( "b" << 1 ), FBS( BSON( "b" << 1 << "c" << 1 ) ), BSONObj() ); ASSERT( p3.range( "b" ).nontrivial() ); ASSERT( !p3.unhelpful() ); QueryPlan p4( nsd(), INDEXNO( "b" << 1 << "c" << 1 ), FBS( BSON( "c" << 1 << "d" << 1 ) ), BSONObj() ); ASSERT( !p4.range( "b" ).nontrivial() ); ASSERT( p4.unhelpful() ); } }; } // namespace QueryPlanTests namespace QueryPlanSetTests { class Base { public: Base() { setClient( ns() ); string err; userCreateNS( ns(), BSONObj(), err, false ); } ~Base() { if ( !nsd() ) return; NamespaceDetailsTransient::get( ns() ).clearQueryCache(); string s( ns() ); dropNS( s ); } static void assembleRequest( const string &ns, BSONObj query, int nToReturn, int nToSkip, BSONObj *fieldsToReturn, int queryOptions, Message &toSend ) { // see query.h for the protocol we are using here. BufBuilder b; int opts = queryOptions; b.append(opts); b.append(ns.c_str()); b.append(nToSkip); b.append(nToReturn); query.appendSelfToBufBuilder(b); if ( fieldsToReturn ) fieldsToReturn->appendSelfToBufBuilder(b); toSend.setData(dbQuery, b.buf(), b.len()); } protected: static const char *ns() { return "unittests.QueryPlanSetTests"; } static NamespaceDetails *nsd() { return nsdetails( ns() ); } private: dblock lk_; }; class NoIndexes : public Base { public: void run() { QueryPlanSet s( ns(), BSON( "a" << 4 ), BSON( "b" << 1 ) ); ASSERT_EQUALS( 1, s.nPlans() ); } }; class Optimal : public Base { public: void run() { Helpers::ensureIndex( ns(), BSON( "a" << 1 ), false, "a_1" ); Helpers::ensureIndex( ns(), BSON( "a" << 1 ), false, "b_2" ); QueryPlanSet s( ns(), BSON( "a" << 4 ), BSONObj() ); ASSERT_EQUALS( 1, s.nPlans() ); } }; class NoOptimal : public Base { public: void run() { Helpers::ensureIndex( ns(), BSON( "a" << 1 ), false, "a_1" ); Helpers::ensureIndex( ns(), BSON( "b" << 1 ), false, "b_1" ); QueryPlanSet s( ns(), BSON( "a" << 4 ), BSON( "b" << 1 ) ); ASSERT_EQUALS( 3, s.nPlans() ); } }; class NoSpec : public Base { public: void run() { Helpers::ensureIndex( ns(), BSON( "a" << 1 ), false, "a_1" ); Helpers::ensureIndex( ns(), BSON( "b" << 1 ), false, "b_1" ); QueryPlanSet s( ns(), BSONObj(), BSONObj() ); ASSERT_EQUALS( 1, s.nPlans() ); } }; class HintSpec : public Base { public: void run() { Helpers::ensureIndex( ns(), BSON( "a" << 1 ), false, "a_1" ); Helpers::ensureIndex( ns(), BSON( "b" << 1 ), false, "b_1" ); BSONObj b = BSON( "hint" << BSON( "a" << 1 ) ); BSONElement e = b.firstElement(); QueryPlanSet s( ns(), BSON( "a" << 1 ), BSON( "b" << 1 ), &e ); ASSERT_EQUALS( 1, s.nPlans() ); } }; class HintName : public Base { public: void run() { Helpers::ensureIndex( ns(), BSON( "a" << 1 ), false, "a_1" ); Helpers::ensureIndex( ns(), BSON( "b" << 1 ), false, "b_1" ); BSONObj b = BSON( "hint" << "a_1" ); BSONElement e = b.firstElement(); QueryPlanSet s( ns(), BSON( "a" << 1 ), BSON( "b" << 1 ), &e ); ASSERT_EQUALS( 1, s.nPlans() ); } }; class NaturalHint : public Base { public: void run() { Helpers::ensureIndex( ns(), BSON( "a" << 1 ), false, "a_1" ); Helpers::ensureIndex( ns(), BSON( "b" << 1 ), false, "b_1" ); BSONObj b = BSON( "hint" << BSON( "$natural" << 1 ) ); BSONElement e = b.firstElement(); QueryPlanSet s( ns(), BSON( "a" << 1 ), BSON( "b" << 1 ), &e ); ASSERT_EQUALS( 1, s.nPlans() ); } }; class NaturalSort : public Base { public: void run() { Helpers::ensureIndex( ns(), BSON( "a" << 1 ), false, "a_1" ); Helpers::ensureIndex( ns(), BSON( "a" << 1 ), false, "b_2" ); QueryPlanSet s( ns(), BSON( "a" << 1 ), BSON( "$natural" << 1 ) ); ASSERT_EQUALS( 1, s.nPlans() ); } }; class BadHint : public Base { public: void run() { BSONObj b = BSON( "hint" << "a_1" ); BSONElement e = b.firstElement(); ASSERT_EXCEPTION( QueryPlanSet s( ns(), BSON( "a" << 1 ), BSON( "b" << 1 ), &e ), AssertionException ); } }; class Count : public Base { public: void run() { Helpers::ensureIndex( ns(), BSON( "a" << 1 ), false, "a_1" ); Helpers::ensureIndex( ns(), BSON( "b" << 1 ), false, "b_1" ); string err; ASSERT_EQUALS( 0, runCount( ns(), BSON( "query" << BSON( "a" << 4 ) ), err ) ); BSONObj one = BSON( "a" << 1 ); BSONObj fourA = BSON( "a" << 4 ); BSONObj fourB = BSON( "a" << 4 ); theDataFileMgr.insert( ns(), one ); ASSERT_EQUALS( 0, runCount( ns(), BSON( "query" << BSON( "a" << 4 ) ), err ) ); theDataFileMgr.insert( ns(), fourA ); ASSERT_EQUALS( 1, runCount( ns(), BSON( "query" << BSON( "a" << 4 ) ), err ) ); theDataFileMgr.insert( ns(), fourB ); ASSERT_EQUALS( 2, runCount( ns(), BSON( "query" << BSON( "a" << 4 ) ), err ) ); ASSERT_EQUALS( 3, runCount( ns(), BSON( "query" << BSONObj() ), err ) ); ASSERT_EQUALS( 3, runCount( ns(), BSON( "query" << BSON( "a" << GT << 0 ) ), err ) ); // missing ns ASSERT_EQUALS( -1, runCount( "unittests.missingNS", BSONObj(), err ) ); // impossible match ASSERT_EQUALS( 0, runCount( ns(), BSON( "query" << BSON( "a" << GT << 0 << LT << -1 ) ), err ) ); } }; class QueryMissingNs : public Base { public: void run() { Message m; assembleRequest( "unittests.missingNS", BSONObj(), 0, 0, 0, 0, m ); stringstream ss; ASSERT_EQUALS( 0, runQuery( m, ss )->nReturned ); } }; class UnhelpfulIndex : public Base { public: void run() { Helpers::ensureIndex( ns(), BSON( "a" << 1 ), false, "a_1" ); Helpers::ensureIndex( ns(), BSON( "b" << 1 ), false, "b_1" ); QueryPlanSet s( ns(), BSON( "a" << 1 << "c" << 2 ), BSONObj() ); ASSERT_EQUALS( 2, s.nPlans() ); } }; class SingleException : public Base { public: void run() { Helpers::ensureIndex( ns(), BSON( "a" << 1 ), false, "a_1" ); Helpers::ensureIndex( ns(), BSON( "b" << 1 ), false, "b_1" ); QueryPlanSet s( ns(), BSON( "a" << 4 ), BSON( "b" << 1 ) ); ASSERT_EQUALS( 3, s.nPlans() ); bool threw = false; auto_ptr< TestOp > t( new TestOp( true, threw ) ); boost::shared_ptr< TestOp > done = s.runOp( *t ); ASSERT( threw ); ASSERT( done->complete() ); ASSERT( done->exceptionMessage().empty() ); ASSERT( !done->error() ); } private: class TestOp : public QueryOp { public: TestOp( bool iThrow, bool &threw ) : iThrow_( iThrow ), threw_( threw ), i_(), youThrow_( false ) {} virtual void init() {} virtual void next() { if ( iThrow_ ) threw_ = true; massert( "throw", !iThrow_ ); if ( ++i_ > 10 ) setComplete(); } virtual QueryOp *clone() const { QueryOp *op = new TestOp( youThrow_, threw_ ); youThrow_ = !youThrow_; return op; } virtual bool mayRecordPlan() const { return true; } private: bool iThrow_; bool &threw_; int i_; mutable bool youThrow_; }; }; class AllException : public Base { public: void run() { Helpers::ensureIndex( ns(), BSON( "a" << 1 ), false, "a_1" ); Helpers::ensureIndex( ns(), BSON( "b" << 1 ), false, "b_1" ); QueryPlanSet s( ns(), BSON( "a" << 4 ), BSON( "b" << 1 ) ); ASSERT_EQUALS( 3, s.nPlans() ); auto_ptr< TestOp > t( new TestOp() ); boost::shared_ptr< TestOp > done = s.runOp( *t ); ASSERT( !done->complete() ); ASSERT_EQUALS( "throw", done->exceptionMessage() ); ASSERT( done->error() ); } private: class TestOp : public QueryOp { public: virtual void init() {} virtual void next() { massert( "throw", false ); } virtual QueryOp *clone() const { return new TestOp(); } virtual bool mayRecordPlan() const { return true; } }; }; class SaveGoodIndex : public Base { public: void run() { Helpers::ensureIndex( ns(), BSON( "a" << 1 ), false, "a_1" ); Helpers::ensureIndex( ns(), BSON( "b" << 1 ), false, "b_1" ); nPlans( 3 ); runQuery(); nPlans( 1 ); nPlans( 1 ); Helpers::ensureIndex( ns(), BSON( "c" << 1 ), false, "c_1" ); nPlans( 3 ); runQuery(); nPlans( 1 ); { DBDirectClient client; for( int i = 0; i < 34; ++i ) { client.insert( ns(), BSON( "i" << i ) ); client.update( ns(), QUERY( "i" << i ), BSON( "i" << i + 1 ) ); client.remove( ns(), BSON( "i" << i + 1 ) ); } } nPlans( 3 ); QueryPlanSet s( ns(), BSON( "a" << 4 ), BSON( "b" << 1 ) ); NoRecordTestOp original; s.runOp( original ); nPlans( 3 ); BSONObj hint = fromjson( "{hint:{$natural:1}}" ); BSONElement hintElt = hint.firstElement(); QueryPlanSet s2( ns(), BSON( "a" << 4 ), BSON( "b" << 1 ), &hintElt ); TestOp newOriginal; s2.runOp( newOriginal ); nPlans( 3 ); QueryPlanSet s3( ns(), BSON( "a" << 4 ), BSON( "b" << 1 << "c" << 1 ) ); TestOp newerOriginal; s3.runOp( newerOriginal ); nPlans( 3 ); runQuery(); nPlans( 1 ); } private: void nPlans( int n ) { QueryPlanSet s( ns(), BSON( "a" << 4 ), BSON( "b" << 1 ) ); ASSERT_EQUALS( n, s.nPlans() ); } void runQuery() { QueryPlanSet s( ns(), BSON( "a" << 4 ), BSON( "b" << 1 ) ); TestOp original; s.runOp( original ); } class TestOp : public QueryOp { public: virtual void init() {} virtual void next() { setComplete(); } virtual QueryOp *clone() const { return new TestOp(); } virtual bool mayRecordPlan() const { return true; } }; class NoRecordTestOp : public TestOp { virtual bool mayRecordPlan() const { return false; } virtual QueryOp *clone() const { return new NoRecordTestOp(); } }; }; class TryAllPlansOnErr : public Base { public: void run() { Helpers::ensureIndex( ns(), BSON( "a" << 1 ), false, "a_1" ); QueryPlanSet s( ns(), BSON( "a" << 4 ), BSON( "b" << 1 ) ); ScanOnlyTestOp op; s.runOp( op ); ASSERT( fromjson( "{$natural:1}" ).woCompare( NamespaceDetailsTransient::get( ns() ).indexForPattern( s.fbs().pattern( BSON( "b" << 1 ) ) ) ) == 0 ); ASSERT_EQUALS( 1, NamespaceDetailsTransient::get( ns() ).nScannedForPattern( s.fbs().pattern( BSON( "b" << 1 ) ) ) ); QueryPlanSet s2( ns(), BSON( "a" << 4 ), BSON( "b" << 1 ) ); TestOp op2; ASSERT( s2.runOp( op2 )->complete() ); } private: class TestOp : public QueryOp { public: virtual void init() {} virtual void next() { if ( qp().indexKey().firstElement().fieldName() == string( "$natural" ) ) massert( "throw", false ); setComplete(); } virtual QueryOp *clone() const { return new TestOp(); } virtual bool mayRecordPlan() const { return true; } }; class ScanOnlyTestOp : public TestOp { virtual void next() { if ( qp().indexKey().firstElement().fieldName() == string( "$natural" ) ) setComplete(); massert( "throw", false ); } virtual QueryOp *clone() const { return new ScanOnlyTestOp(); } }; }; class FindOne : public Base { public: void run() { BSONObj one = BSON( "a" << 1 ); theDataFileMgr.insert( ns(), one ); BSONObj result; ASSERT( Helpers::findOne( ns(), BSON( "a" << 1 ), result ) ); ASSERT_EXCEPTION( Helpers::findOne( ns(), BSON( "a" << 1 ), result, true ), AssertionException ); Helpers::ensureIndex( ns(), BSON( "a" << 1 ), false, "a_1" ); ASSERT( Helpers::findOne( ns(), BSON( "a" << 1 ), result, true ) ); } }; class Delete : public Base { public: void run() { Helpers::ensureIndex( ns(), BSON( "a" << 1 ), false, "a_1" ); for( int i = 0; i < 200; ++i ) { BSONObj two = BSON( "a" << 2 ); theDataFileMgr.insert( ns(), two ); } BSONObj one = BSON( "a" << 1 ); theDataFileMgr.insert( ns(), one ); deleteObjects( ns(), BSON( "a" << 1 ), false ); ASSERT( BSON( "a" << 1 ).woCompare( NamespaceDetailsTransient::get( ns() ).indexForPattern( FieldRangeSet( ns(), BSON( "a" << 1 ) ).pattern() ) ) == 0 ); ASSERT_EQUALS( 2, NamespaceDetailsTransient::get( ns() ).nScannedForPattern( FieldRangeSet( ns(), BSON( "a" << 1 ) ).pattern() ) ); } }; class DeleteOneScan : public Base { public: void run() { Helpers::ensureIndex( ns(), BSON( "_id" << 1 ), false, "_id_1" ); BSONObj one = BSON( "_id" << 3 << "a" << 1 ); BSONObj two = BSON( "_id" << 2 << "a" << 1 ); BSONObj three = BSON( "_id" << 1 << "a" << -1 ); theDataFileMgr.insert( ns(), one ); theDataFileMgr.insert( ns(), two ); theDataFileMgr.insert( ns(), three ); deleteObjects( ns(), BSON( "_id" << GT << 0 << "a" << GT << 0 ), true ); for( auto_ptr< Cursor > c = theDataFileMgr.findAll( ns() ); c->ok(); c->advance() ) ASSERT( 3 != c->current().getIntField( "_id" ) ); } }; class DeleteOneIndex : public Base { public: void run() { Helpers::ensureIndex( ns(), BSON( "a" << 1 ), false, "a" ); BSONObj one = BSON( "a" << 2 << "_id" << 0 ); BSONObj two = BSON( "a" << 1 << "_id" << 1 ); BSONObj three = BSON( "a" << 0 << "_id" << 2 ); theDataFileMgr.insert( ns(), one ); theDataFileMgr.insert( ns(), two ); theDataFileMgr.insert( ns(), three ); deleteObjects( ns(), BSON( "a" << GTE << 0 << "_id" << GT << 0 ), true ); for( auto_ptr< Cursor > c = theDataFileMgr.findAll( ns() ); c->ok(); c->advance() ) ASSERT( 2 != c->current().getIntField( "_id" ) ); } }; class TryOtherPlansBeforeFinish : public Base { public: void run() { Helpers::ensureIndex( ns(), BSON( "a" << 1 ), false, "a_1" ); for( int i = 0; i < 100; ++i ) { for( int j = 0; j < 2; ++j ) { BSONObj temp = BSON( "a" << 100 - i - 1 << "b" << i ); theDataFileMgr.insert( ns(), temp ); } } Message m; // Need to return at least 2 records to cause plan to be recorded. assembleRequest( ns(), QUERY( "b" << 0 << "a" << GTE << 0 ).obj, 2, 0, 0, 0, m ); stringstream ss; runQuery( m, ss ); ASSERT( BSON( "$natural" << 1 ).woCompare( NamespaceDetailsTransient::get( ns() ).indexForPattern( FieldRangeSet( ns(), BSON( "b" << 0 << "a" << GTE << 0 ) ).pattern() ) ) == 0 ); Message m2; assembleRequest( ns(), QUERY( "b" << 99 << "a" << GTE << 0 ).obj, 2, 0, 0, 0, m2 ); runQuery( m2, ss ); ASSERT( BSON( "a" << 1 ).woCompare( NamespaceDetailsTransient::get( ns() ).indexForPattern( FieldRangeSet( ns(), BSON( "b" << 0 << "a" << GTE << 0 ) ).pattern() ) ) == 0 ); ASSERT_EQUALS( 2, NamespaceDetailsTransient::get( ns() ).nScannedForPattern( FieldRangeSet( ns(), BSON( "b" << 0 << "a" << GTE << 0 ) ).pattern() ) ); } }; class InQueryIntervals : public Base { public: void run() { Helpers::ensureIndex( ns(), BSON( "a" << 1 ), false, "a_1" ); for( int i = 0; i < 10; ++i ) { BSONObj temp = BSON( "a" << i ); theDataFileMgr.insert( ns(), temp ); } BSONObj hint = fromjson( "{$hint:{a:1}}" ); BSONElement hintElt = hint.firstElement(); QueryPlanSet s( ns(), fromjson( "{a:{$in:[2,3,6,9,11]}}" ), BSONObj(), &hintElt ); QueryPlan qp( nsd(), 1, s.fbs(), BSONObj() ); auto_ptr< Cursor > c = qp.newCursor(); double expected[] = { 2, 3, 6, 9 }; for( int i = 0; i < 4; ++i, c->advance() ) { ASSERT_EQUALS( expected[ i ], c->current().getField( "a" ).number() ); } ASSERT( !c->ok() ); // now check reverse { QueryPlanSet s( ns(), fromjson( "{a:{$in:[2,3,6,9,11]}}" ), BSON( "a" << -1 ), &hintElt ); QueryPlan qp( nsd(), 1, s.fbs(), BSON( "a" << -1 ) ); auto_ptr< Cursor > c = qp.newCursor(); double expected[] = { 9, 6, 3, 2 }; for( int i = 0; i < 4; ++i, c->advance() ) { ASSERT_EQUALS( expected[ i ], c->current().getField( "a" ).number() ); } ASSERT( !c->ok() ); } } }; class EqualityThenIn : public Base { public: void run() { Helpers::ensureIndex( ns(), BSON( "a" << 1 << "b" << 1 ), false, "a_1_b_1" ); for( int i = 0; i < 10; ++i ) { BSONObj temp = BSON( "a" << 5 << "b" << i ); theDataFileMgr.insert( ns(), temp ); } BSONObj hint = fromjson( "{$hint:{a:1,b:1}}" ); BSONElement hintElt = hint.firstElement(); QueryPlanSet s( ns(), fromjson( "{a:5,b:{$in:[2,3,6,9,11]}}" ), BSONObj(), &hintElt ); QueryPlan qp( nsd(), 1, s.fbs(), BSONObj() ); auto_ptr< Cursor > c = qp.newCursor(); double expected[] = { 2, 3, 6, 9 }; for( int i = 0; i < 4; ++i, c->advance() ) { ASSERT_EQUALS( expected[ i ], c->current().getField( "b" ).number() ); } ASSERT( !c->ok() ); } }; class NotEqualityThenIn : public Base { public: void run() { Helpers::ensureIndex( ns(), BSON( "a" << 1 << "b" << 1 ), false, "a_1_b_1" ); for( int i = 0; i < 10; ++i ) { BSONObj temp = BSON( "a" << 5 << "b" << i ); theDataFileMgr.insert( ns(), temp ); } BSONObj hint = fromjson( "{$hint:{a:1,b:1}}" ); BSONElement hintElt = hint.firstElement(); QueryPlanSet s( ns(), fromjson( "{a:{$gte:5},b:{$in:[2,3,6,9,11]}}" ), BSONObj(), &hintElt ); QueryPlan qp( nsd(), 1, s.fbs(), BSONObj() ); auto_ptr< Cursor > c = qp.newCursor(); for( int i = 2; i < 10; ++i, c->advance() ) { ASSERT_EQUALS( i, c->current().getField( "b" ).number() ); } ASSERT( !c->ok() ); } }; } // namespace QueryPlanSetTests class All : public Suite { public: All() : Suite( "queryoptimizer" ){} void setupTests(){ add< FieldRangeTests::Empty >(); add< FieldRangeTests::Eq >(); add< FieldRangeTests::DupEq >(); add< FieldRangeTests::Lt >(); add< FieldRangeTests::Lte >(); add< FieldRangeTests::Gt >(); add< FieldRangeTests::Gte >(); add< FieldRangeTests::TwoLt >(); add< FieldRangeTests::TwoGt >(); add< FieldRangeTests::EqGte >(); add< FieldRangeTests::EqGteInvalid >(); add< FieldRangeTests::Regex >(); add< FieldRangeTests::UnhelpfulRegex >(); add< FieldRangeTests::In >(); add< FieldRangeTests::Equality >(); add< FieldRangeTests::SimplifiedQuery >(); add< FieldRangeTests::QueryPatternTest >(); add< FieldRangeTests::NoWhere >(); add< FieldRangeTests::Numeric >(); add< FieldRangeTests::InLowerBound >(); add< FieldRangeTests::InUpperBound >(); add< FieldRangeTests::MultiBound >(); add< QueryPlanTests::NoIndex >(); add< QueryPlanTests::SimpleOrder >(); add< QueryPlanTests::MoreIndexThanNeeded >(); add< QueryPlanTests::IndexSigns >(); add< QueryPlanTests::IndexReverse >(); add< QueryPlanTests::NoOrder >(); add< QueryPlanTests::EqualWithOrder >(); add< QueryPlanTests::Optimal >(); add< QueryPlanTests::MoreOptimal >(); add< QueryPlanTests::KeyMatch >(); add< QueryPlanTests::MoreKeyMatch >(); add< QueryPlanTests::ExactKeyQueryTypes >(); add< QueryPlanTests::Unhelpful >(); add< QueryPlanSetTests::NoIndexes >(); add< QueryPlanSetTests::Optimal >(); add< QueryPlanSetTests::NoOptimal >(); add< QueryPlanSetTests::NoSpec >(); add< QueryPlanSetTests::HintSpec >(); add< QueryPlanSetTests::HintName >(); add< QueryPlanSetTests::NaturalHint >(); add< QueryPlanSetTests::NaturalSort >(); add< QueryPlanSetTests::BadHint >(); add< QueryPlanSetTests::Count >(); add< QueryPlanSetTests::QueryMissingNs >(); add< QueryPlanSetTests::UnhelpfulIndex >(); add< QueryPlanSetTests::SingleException >(); add< QueryPlanSetTests::AllException >(); add< QueryPlanSetTests::SaveGoodIndex >(); add< QueryPlanSetTests::TryAllPlansOnErr >(); add< QueryPlanSetTests::FindOne >(); add< QueryPlanSetTests::Delete >(); add< QueryPlanSetTests::DeleteOneScan >(); add< QueryPlanSetTests::DeleteOneIndex >(); add< QueryPlanSetTests::TryOtherPlansBeforeFinish >(); add< QueryPlanSetTests::InQueryIntervals >(); add< QueryPlanSetTests::EqualityThenIn >(); add< QueryPlanSetTests::NotEqualityThenIn >(); } } myall; } // namespace QueryOptimizerTests