TEST(OrOp, MatchesThreeClauses) {
    BSONObj baseOperand1 = BSON("$gt" << 10);
    BSONObj baseOperand2 = BSON("$lt" << 0);
    BSONObj baseOperand3 = BSON("b" << 100);
    const CollatorInterface* collator = nullptr;
    unique_ptr<ComparisonMatchExpression> sub1(new GTMatchExpression(collator));
    ASSERT(sub1->init("a", baseOperand1["$gt"]).isOK());
    unique_ptr<ComparisonMatchExpression> sub2(new LTMatchExpression(collator));
    ASSERT(sub2->init("a", baseOperand2["$lt"]).isOK());
    unique_ptr<ComparisonMatchExpression> sub3(new EqualityMatchExpression(collator));
    ASSERT(sub3->init("b", baseOperand3["b"]).isOK());

    OrMatchExpression orOp;
    orOp.add(sub1.release());
    orOp.add(sub2.release());
    orOp.add(sub3.release());

    ASSERT(orOp.matchesBSON(BSON("a" << -1), NULL));
    ASSERT(orOp.matchesBSON(BSON("a" << 11), NULL));
    ASSERT(!orOp.matchesBSON(BSON("a" << 5), NULL));
    ASSERT(orOp.matchesBSON(BSON("b" << 100), NULL));
    ASSERT(!orOp.matchesBSON(BSON("b" << 101), NULL));
    ASSERT(!orOp.matchesBSON(BSONObj(), NULL));
    ASSERT(orOp.matchesBSON(BSON("a" << 11 << "b" << 100), NULL));
}
Esempio n. 2
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    /*
    TEST( OrOp, MatchesElementThreeClauses ) {
        BSONObj baseOperand1 = BSON( "$lt" << 0 );
        BSONObj baseOperand2 = BSON( "$gt" << 10 );
        BSONObj baseOperand3 = BSON( "a" << 5 );
        BSONObj match1 = BSON( "a" << -1 );
        BSONObj match2 = BSON( "a" << 11 );
        BSONObj match3 = BSON( "a" << 5 );
        BSONObj notMatch = BSON( "a" << "6" );
        auto_ptr<ComparisonMatchExpression> sub1( new ComparisonMatchExpression() );
        ASSERT( sub1->init( "a", baseOperand1[ "$lt" ] ).isOK() );
        auto_ptr<ComparisonMatchExpression> sub2( new ComparisonMatchExpression() );
        ASSERT( sub2->init( "a", baseOperand2[ "$gt" ] ).isOK() );
        auto_ptr<ComparisonMatchExpression> sub3( new ComparisonMatchExpression() );
        ASSERT( sub3->init( "a", baseOperand3[ "a" ] ).isOK() );
        OwnedPointerVector<MatchMatchExpression> subMatchExpressions;
        subMatchExpressions.mutableVector().push_back( sub1.release() );
        subMatchExpressions.mutableVector().push_back( sub2.release() );
        subMatchExpressions.mutableVector().push_back( sub3.release() );
        OrOp orOp;
        ASSERT( orOp.init( &subMatchExpressions ).isOK() );
        ASSERT( orOp.matchesSingleElement( match1[ "a" ] ) );
        ASSERT( orOp.matchesSingleElement( match2[ "a" ] ) );
        ASSERT( orOp.matchesSingleElement( match3[ "a" ] ) );
        ASSERT( !orOp.matchesSingleElement( notMatch[ "a" ] ) );
    }
    */
    TEST( OrOp, MatchesSingleClause ) {
        BSONObj baseOperand = BSON( "$ne" << 5 );
        auto_ptr<ComparisonMatchExpression> ne( new ComparisonMatchExpression() );
        ASSERT( ne->init( "a", ComparisonMatchExpression::NE, baseOperand[ "$ne" ] ).isOK() );

        OrMatchExpression orOp;
        orOp.add( ne.release() );

        ASSERT( orOp.matches( BSON( "a" << 4 ), NULL ) );
        ASSERT( orOp.matches( BSON( "a" << BSON_ARRAY( 4 << 6 ) ), NULL ) );
        ASSERT( !orOp.matches( BSON( "a" << 5 ), NULL ) );
        ASSERT( !orOp.matches( BSON( "a" << BSON_ARRAY( 4 << 5 ) ), NULL ) );
    }
Esempio n. 3
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/*
TEST( OrOp, MatchesElementThreeClauses ) {
    BSONObj baseOperand1 = BSON( "$lt" << 0 );
    BSONObj baseOperand2 = BSON( "$gt" << 10 );
    BSONObj baseOperand3 = BSON( "a" << 5 );
    BSONObj match1 = BSON( "a" << -1 );
    BSONObj match2 = BSON( "a" << 11 );
    BSONObj match3 = BSON( "a" << 5 );
    BSONObj notMatch = BSON( "a" << "6" );
    unique_ptr<ComparisonMatchExpression> sub1( new ComparisonMatchExpression() );
    ASSERT( sub1->init( "a", baseOperand1[ "$lt" ] ).isOK() );
    unique_ptr<ComparisonMatchExpression> sub2( new ComparisonMatchExpression() );
    ASSERT( sub2->init( "a", baseOperand2[ "$gt" ] ).isOK() );
    unique_ptr<ComparisonMatchExpression> sub3( new ComparisonMatchExpression() );
    ASSERT( sub3->init( "a", baseOperand3[ "a" ] ).isOK() );
    OwnedPointerVector<MatchMatchExpression> subMatchExpressions;
    subMatchExpressions.mutableVector().push_back( sub1.release() );
    subMatchExpressions.mutableVector().push_back( sub2.release() );
    subMatchExpressions.mutableVector().push_back( sub3.release() );
    OrOp orOp;
    ASSERT( orOp.init( &subMatchExpressions ).isOK() );
    ASSERT( orOp.matchesSingleElement( match1[ "a" ] ) );
    ASSERT( orOp.matchesSingleElement( match2[ "a" ] ) );
    ASSERT( orOp.matchesSingleElement( match3[ "a" ] ) );
    ASSERT( !orOp.matchesSingleElement( notMatch[ "a" ] ) );
}
*/
TEST(OrOp, MatchesSingleClause) {
    BSONObj baseOperand = BSON("$ne" << 5);
    unique_ptr<ComparisonMatchExpression> eq(new EqualityMatchExpression());
    ASSERT(eq->init("a", baseOperand["$ne"]).isOK());
    unique_ptr<NotMatchExpression> ne(new NotMatchExpression());
    ASSERT(ne->init(eq.release()).isOK());

    OrMatchExpression orOp;
    orOp.add(ne.release());

    ASSERT(orOp.matchesBSON(BSON("a" << 4), NULL));
    ASSERT(orOp.matchesBSON(BSON("a" << BSON_ARRAY(4 << 6)), NULL));
    ASSERT(!orOp.matchesBSON(BSON("a" << 5), NULL));
    ASSERT(!orOp.matchesBSON(BSON("a" << BSON_ARRAY(4 << 5)), NULL));
}
Esempio n. 4
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    TEST( OrOp, MatchesThreeClauses ) {
        BSONObj baseOperand1 = BSON( "$gt" << 10 );
        BSONObj baseOperand2 = BSON( "$lt" << 0 );
        BSONObj baseOperand3 = BSON( "b" << 100 );
        auto_ptr<ComparisonMatchExpression> sub1( new ComparisonMatchExpression() );
        ASSERT( sub1->init( "a", ComparisonMatchExpression::GT, baseOperand1[ "$gt" ] ).isOK() );
        auto_ptr<ComparisonMatchExpression> sub2( new ComparisonMatchExpression() );
        ASSERT( sub2->init( "a", ComparisonMatchExpression::LT, baseOperand2[ "$lt" ] ).isOK() );
        auto_ptr<ComparisonMatchExpression> sub3( new ComparisonMatchExpression() );
        ASSERT( sub3->init( "b", ComparisonMatchExpression::EQ, baseOperand3[ "b" ] ).isOK() );

        OrMatchExpression orOp;
        orOp.add( sub1.release() );
        orOp.add( sub2.release() );
        orOp.add( sub3.release() );

        ASSERT( orOp.matches( BSON( "a" << -1 ), NULL ) );
        ASSERT( orOp.matches( BSON( "a" << 11 ), NULL ) );
        ASSERT( !orOp.matches( BSON( "a" << 5 ), NULL ) );
        ASSERT( orOp.matches( BSON( "b" << 100 ), NULL ) );
        ASSERT( !orOp.matches( BSON( "b" << 101 ), NULL ) );
        ASSERT( !orOp.matches( BSONObj(), NULL ) );
        ASSERT( orOp.matches( BSON( "a" << 11 << "b" << 100 ), NULL ) );
    }
Esempio n. 5
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TEST(OrOp, ElemMatchKey) {
    BSONObj baseOperand1 = BSON("a" << 1);
    BSONObj baseOperand2 = BSON("b" << 2);
    unique_ptr<ComparisonMatchExpression> sub1(new EqualityMatchExpression());
    ASSERT(sub1->init("a", baseOperand1["a"]).isOK());
    unique_ptr<ComparisonMatchExpression> sub2(new EqualityMatchExpression());
    ASSERT(sub2->init("b", baseOperand2["b"]).isOK());

    OrMatchExpression orOp;
    orOp.add(sub1.release());
    orOp.add(sub2.release());

    MatchDetails details;
    details.requestElemMatchKey();
    ASSERT(!orOp.matchesBSON(BSONObj(), &details));
    ASSERT(!details.hasElemMatchKey());
    ASSERT(!orOp.matchesBSON(BSON("a" << BSON_ARRAY(10) << "b" << BSON_ARRAY(10)), &details));
    ASSERT(!details.hasElemMatchKey());
    ASSERT(orOp.matchesBSON(BSON("a" << BSON_ARRAY(1) << "b" << BSON_ARRAY(1 << 2)), &details));
    // The elem match key feature is not implemented for $or.
    ASSERT(!details.hasElemMatchKey());
}