InternalSchemaFmodMatchExpression::InternalSchemaFmodMatchExpression(StringData path,
                                                                     Decimal128 divisor,
                                                                     Decimal128 remainder)
    : LeafMatchExpression(MatchType::INTERNAL_SCHEMA_FMOD, path),
      _divisor(divisor),
      _remainder(remainder) {
    uassert(ErrorCodes::BadValue, "divisor cannot be 0", !divisor.isZero());
    uassert(ErrorCodes::BadValue, "divisor cannot be NaN", !divisor.isNaN());
    uassert(ErrorCodes::BadValue, "divisor cannot be infinite", !divisor.isInfinite());
}
コード例 #2
0
void BSONComparatorInterfaceBase<T>::hashCombineBSONElement(
    size_t& hash,
    BSONElement elemToHash,
    bool considerFieldName,
    const StringData::ComparatorInterface* stringComparator) {
    boost::hash_combine(hash, elemToHash.canonicalType());

    const StringData fieldName = elemToHash.fieldNameStringData();
    if (considerFieldName && !fieldName.empty()) {
        SimpleStringDataComparator::kInstance.hash_combine(hash, fieldName);
    }

    switch (elemToHash.type()) {
        // Order of types is the same as in compareElementValues().

        case mongo::EOO:
        case mongo::Undefined:
        case mongo::jstNULL:
        case mongo::MaxKey:
        case mongo::MinKey:
            // These are valueless types
            break;

        case mongo::Bool:
            boost::hash_combine(hash, elemToHash.boolean());
            break;

        case mongo::bsonTimestamp:
            boost::hash_combine(hash, elemToHash.timestamp().asULL());
            break;

        case mongo::Date:
            boost::hash_combine(hash, elemToHash.date().asInt64());
            break;

        case mongo::NumberDecimal: {
            const Decimal128 dcml = elemToHash.numberDecimal();
            if (dcml.toAbs().isGreater(Decimal128(std::numeric_limits<double>::max(),
                                                  Decimal128::kRoundTo34Digits,
                                                  Decimal128::kRoundTowardZero)) &&
                !dcml.isInfinite() && !dcml.isNaN()) {
                // Normalize our decimal to force equivalent decimals
                // in the same cohort to hash to the same value
                Decimal128 dcmlNorm(dcml.normalize());
                boost::hash_combine(hash, dcmlNorm.getValue().low64);
                boost::hash_combine(hash, dcmlNorm.getValue().high64);
                break;
            }
            // Else, fall through and convert the decimal to a double and hash.
            // At this point the decimal fits into the range of doubles, is infinity, or is NaN,
            // which doubles have a cheaper representation for.
        }
        case mongo::NumberDouble:
        case mongo::NumberLong:
        case mongo::NumberInt: {
            // This converts all numbers to doubles, which ignores the low-order bits of
            // NumberLongs > 2**53 and precise decimal numbers without double representations,
            // but that is ok since the hash will still be the same for equal numbers and is
            // still likely to be different for different numbers. (Note: this issue only
            // applies for decimals when they are outside of the valid double range. See
            // the above case.)
            // SERVER-16851
            const double dbl = elemToHash.numberDouble();
            if (std::isnan(dbl)) {
                boost::hash_combine(hash, std::numeric_limits<double>::quiet_NaN());
            } else {
                boost::hash_combine(hash, dbl);
            }
            break;
        }

        case mongo::jstOID:
            elemToHash.__oid().hash_combine(hash);
            break;

        case mongo::String: {
            if (stringComparator) {
                stringComparator->hash_combine(hash, elemToHash.valueStringData());
            } else {
                SimpleStringDataComparator::kInstance.hash_combine(hash,
                                                                   elemToHash.valueStringData());
            }
            break;
        }

        case mongo::Code:
        case mongo::Symbol:
            SimpleStringDataComparator::kInstance.hash_combine(hash, elemToHash.valueStringData());
            break;

        case mongo::Object:
        case mongo::Array:
            hashCombineBSONObj(hash,
                               elemToHash.embeddedObject(),
                               true,  // considerFieldName
                               stringComparator);
            break;

        case mongo::DBRef:
        case mongo::BinData:
            // All bytes of the value are required to be identical.
            SimpleStringDataComparator::kInstance.hash_combine(
                hash, StringData(elemToHash.value(), elemToHash.valuesize()));
            break;

        case mongo::RegEx:
            SimpleStringDataComparator::kInstance.hash_combine(hash, elemToHash.regex());
            SimpleStringDataComparator::kInstance.hash_combine(hash, elemToHash.regexFlags());
            break;

        case mongo::CodeWScope: {
            SimpleStringDataComparator::kInstance.hash_combine(
                hash, StringData(elemToHash.codeWScopeCode(), elemToHash.codeWScopeCodeLen()));
            hashCombineBSONObj(hash,
                               elemToHash.codeWScopeObject(),
                               true,  // considerFieldName
                               &SimpleStringDataComparator::kInstance);
            break;
        }
    }
}