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|
/**
* Copyright (C) 2018-present MongoDB, Inc.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the Server Side Public License, version 1,
* as published by MongoDB, Inc.
*
* 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
* Server Side Public License for more details.
*
* You should have received a copy of the Server Side Public License
* along with this program. If not, see
* <http://www.mongodb.com/licensing/server-side-public-license>.
*
* As a special exception, the copyright holders give permission to link the
* code of portions of this program with the OpenSSL library under certain
* conditions as described in each individual source file and distribute
* linked combinations including the program with the OpenSSL library. You
* must comply with the Server Side Public License in all respects for
* all of the code used other than as permitted herein. If you modify file(s)
* with this exception, you may extend this exception to your version of the
* file(s), but you are not obligated to do so. If you do not wish to do so,
* delete this exception statement from your version. If you delete this
* exception statement from all source files in the program, then also delete
* it in the license file.
*/
#include "mongo/platform/basic.h"
#include "mongo/db/pipeline/value.h"
#include <boost/functional/hash.hpp>
#include <cmath>
#include <limits>
#include "mongo/base/compare_numbers.h"
#include "mongo/base/data_type_endian.h"
#include "mongo/base/simple_string_data_comparator.h"
#include "mongo/bson/bson_depth.h"
#include "mongo/bson/simple_bsonobj_comparator.h"
#include "mongo/db/jsobj.h"
#include "mongo/db/pipeline/document.h"
#include "mongo/db/query/datetime/date_time_support.h"
#include "mongo/platform/decimal128.h"
#include "mongo/util/hex.h"
#include "mongo/util/mongoutils/str.h"
#include "mongo/util/represent_as.h"
namespace mongo {
using namespace mongoutils;
using boost::intrusive_ptr;
using std::min;
using std::numeric_limits;
using std::ostream;
using std::string;
using std::stringstream;
using std::vector;
constexpr StringData Value::kISOFormatString;
void ValueStorage::verifyRefCountingIfShould() const {
switch (type) {
case MinKey:
case MaxKey:
case jstOID:
case Date:
case bsonTimestamp:
case EOO:
case jstNULL:
case Undefined:
case Bool:
case NumberInt:
case NumberLong:
case NumberDouble:
// the above types never reference external data
verify(!refCounter);
break;
case String:
case RegEx:
case Code:
case Symbol:
// the above types reference data when not using short-string optimization
verify(refCounter == !shortStr);
break;
case NumberDecimal:
case BinData: // TODO this should probably support short-string optimization
case Array: // TODO this should probably support empty-is-NULL optimization
case DBRef:
case CodeWScope:
// the above types always reference external data.
verify(refCounter);
verify(bool(genericRCPtr));
break;
case Object:
// Objects either hold a NULL ptr or should be ref-counting
verify(refCounter == bool(genericRCPtr));
break;
}
}
void ValueStorage::putString(StringData s) {
// Note: this also stores data portion of BinData
const size_t sizeNoNUL = s.size();
if (sizeNoNUL <= sizeof(shortStrStorage)) {
shortStr = true;
shortStrSize = s.size();
s.copyTo(shortStrStorage, false); // no NUL
// All memory is zeroed before this is called, so we know that
// the nulTerminator field will definitely contain a NUL byte.
dassert(((sizeNoNUL < sizeof(shortStrStorage)) && (shortStrStorage[sizeNoNUL] == '\0')) ||
(((shortStrStorage + sizeNoNUL) == &nulTerminator) && (nulTerminator == '\0')));
} else {
putRefCountable(RCString::create(s));
}
}
void ValueStorage::putDocument(const Document& d) {
putRefCountable(d._storage);
}
void ValueStorage::putVector(const RCVector* vec) {
fassert(16485, vec);
putRefCountable(vec);
}
void ValueStorage::putRegEx(const BSONRegEx& re) {
const size_t patternLen = re.pattern.size();
const size_t flagsLen = re.flags.size();
const size_t totalLen = patternLen + 1 /*middle NUL*/ + flagsLen;
// Need to copy since putString doesn't support scatter-gather.
std::unique_ptr<char[]> buf(new char[totalLen]);
re.pattern.copyTo(buf.get(), true);
re.flags.copyTo(buf.get() + patternLen + 1, false); // no NUL
putString(StringData(buf.get(), totalLen));
}
Document ValueStorage::getDocument() const {
if (!genericRCPtr)
return Document();
dassert(typeid(*genericRCPtr) == typeid(const DocumentStorage));
const DocumentStorage* documentPtr = static_cast<const DocumentStorage*>(genericRCPtr);
return Document(documentPtr);
}
// not in header because document is fwd declared
Value::Value(const BSONObj& obj) : _storage(Object, Document(obj)) {}
Value::Value(const BSONElement& elem) : _storage(elem.type()) {
switch (elem.type()) {
// These are all type-only, no data
case EOO:
case MinKey:
case MaxKey:
case Undefined:
case jstNULL:
break;
case NumberDouble:
_storage.doubleValue = elem.Double();
break;
case Code:
case Symbol:
case String:
_storage.putString(elem.valueStringData());
break;
case Object: {
_storage.putDocument(Document(elem.embeddedObject()));
break;
}
case Array: {
intrusive_ptr<RCVector> vec(new RCVector);
BSONForEach(sub, elem.embeddedObject()) {
vec->vec.push_back(Value(sub));
}
_storage.putVector(vec.get());
break;
}
case jstOID:
MONGO_STATIC_ASSERT(sizeof(_storage.oid) == OID::kOIDSize);
memcpy(_storage.oid, elem.OID().view().view(), OID::kOIDSize);
break;
case Bool:
_storage.boolValue = elem.boolean();
break;
case Date:
_storage.dateValue = elem.date().toMillisSinceEpoch();
break;
case RegEx: {
_storage.putRegEx(BSONRegEx(elem.regex(), elem.regexFlags()));
break;
}
case NumberInt:
_storage.intValue = elem.numberInt();
break;
case bsonTimestamp:
_storage.timestampValue = elem.timestamp().asULL();
break;
case NumberLong:
_storage.longValue = elem.numberLong();
break;
case NumberDecimal:
_storage.putDecimal(elem.numberDecimal());
break;
case CodeWScope: {
StringData code(elem.codeWScopeCode(), elem.codeWScopeCodeLen() - 1);
_storage.putCodeWScope(BSONCodeWScope(code, elem.codeWScopeObject()));
break;
}
case BinData: {
int len;
const char* data = elem.binData(len);
_storage.putBinData(BSONBinData(data, len, elem.binDataType()));
break;
}
case DBRef:
_storage.putDBRef(BSONDBRef(elem.dbrefNS(), elem.dbrefOID()));
break;
}
}
Value::Value(const BSONArray& arr) : _storage(Array) {
intrusive_ptr<RCVector> vec(new RCVector);
BSONForEach(sub, arr) {
vec->vec.push_back(Value(sub));
}
_storage.putVector(vec.get());
}
Value::Value(const vector<BSONObj>& vec) : _storage(Array) {
intrusive_ptr<RCVector> storageVec(new RCVector);
storageVec->vec.reserve(vec.size());
for (auto&& obj : vec) {
storageVec->vec.push_back(Value(obj));
}
_storage.putVector(storageVec.get());
}
Value::Value(const vector<Document>& vec) : _storage(Array) {
intrusive_ptr<RCVector> storageVec(new RCVector);
storageVec->vec.reserve(vec.size());
for (auto&& obj : vec) {
storageVec->vec.push_back(Value(obj));
}
_storage.putVector(storageVec.get());
}
Value Value::createIntOrLong(long long longValue) {
int intValue = longValue;
if (intValue != longValue) {
// it is too large to be an int and should remain a long
return Value(longValue);
}
// should be an int since all arguments were int and it fits
return Value(intValue);
}
Decimal128 Value::getDecimal() const {
BSONType type = getType();
if (type == NumberInt)
return Decimal128(static_cast<int32_t>(_storage.intValue));
if (type == NumberLong)
return Decimal128(static_cast<int64_t>(_storage.longValue));
if (type == NumberDouble)
return Decimal128(_storage.doubleValue);
invariant(type == NumberDecimal);
return _storage.getDecimal();
}
double Value::getDouble() const {
BSONType type = getType();
if (type == NumberInt)
return _storage.intValue;
if (type == NumberLong)
return static_cast<double>(_storage.longValue);
if (type == NumberDecimal)
return _storage.getDecimal().toDouble();
verify(type == NumberDouble);
return _storage.doubleValue;
}
Document Value::getDocument() const {
verify(getType() == Object);
return _storage.getDocument();
}
Value Value::operator[](size_t index) const {
if (getType() != Array || index >= getArrayLength())
return Value();
return getArray()[index];
}
Value Value::operator[](StringData name) const {
if (getType() != Object)
return Value();
return getDocument()[name];
}
BSONObjBuilder& operator<<(BSONObjBuilderValueStream& builder, const Value& val) {
switch (val.getType()) {
case EOO:
return builder.builder(); // nothing appended
case MinKey:
return builder << MINKEY;
case MaxKey:
return builder << MAXKEY;
case jstNULL:
return builder << BSONNULL;
case Undefined:
return builder << BSONUndefined;
case jstOID:
return builder << val.getOid();
case NumberInt:
return builder << val.getInt();
case NumberLong:
return builder << val.getLong();
case NumberDouble:
return builder << val.getDouble();
case NumberDecimal:
return builder << val.getDecimal();
case String:
return builder << val.getStringData();
case Bool:
return builder << val.getBool();
case Date:
return builder << val.getDate();
case bsonTimestamp:
return builder << val.getTimestamp();
case Object:
return builder << val.getDocument();
case Symbol:
return builder << BSONSymbol(val.getRawData());
case Code:
return builder << BSONCode(val.getRawData());
case RegEx:
return builder << BSONRegEx(val.getRegex(), val.getRegexFlags());
case DBRef:
return builder << BSONDBRef(val._storage.getDBRef()->ns, val._storage.getDBRef()->oid);
case BinData:
return builder << BSONBinData(val.getRawData().rawData(), // looking for void*
val.getRawData().size(),
val._storage.binDataType());
case CodeWScope:
return builder << BSONCodeWScope(val._storage.getCodeWScope()->code,
val._storage.getCodeWScope()->scope);
case Array: {
BSONArrayBuilder arrayBuilder(builder.subarrayStart());
for (auto&& value : val.getArray()) {
value.addToBsonArray(&arrayBuilder);
}
arrayBuilder.doneFast();
return builder.builder();
}
}
verify(false);
}
void Value::addToBsonObj(BSONObjBuilder* builder,
StringData fieldName,
size_t recursionLevel) const {
uassert(ErrorCodes::Overflow,
str::stream() << "cannot convert document to BSON because it exceeds the limit of "
<< BSONDepth::getMaxAllowableDepth()
<< " levels of nesting",
recursionLevel <= BSONDepth::getMaxAllowableDepth());
if (getType() == BSONType::Object) {
BSONObjBuilder subobjBuilder(builder->subobjStart(fieldName));
getDocument().toBson(&subobjBuilder, recursionLevel + 1);
subobjBuilder.doneFast();
} else if (getType() == BSONType::Array) {
BSONArrayBuilder subarrBuilder(builder->subarrayStart(fieldName));
for (auto&& value : getArray()) {
value.addToBsonArray(&subarrBuilder, recursionLevel + 1);
}
subarrBuilder.doneFast();
} else {
*builder << fieldName << *this;
}
}
void Value::addToBsonArray(BSONArrayBuilder* builder, size_t recursionLevel) const {
uassert(ErrorCodes::Overflow,
str::stream() << "cannot convert document to BSON because it exceeds the limit of "
<< BSONDepth::getMaxAllowableDepth()
<< " levels of nesting",
recursionLevel <= BSONDepth::getMaxAllowableDepth());
// If this Value is empty, do nothing to avoid incrementing the builder's counter.
if (missing()) {
return;
}
if (getType() == BSONType::Object) {
BSONObjBuilder subobjBuilder(builder->subobjStart());
getDocument().toBson(&subobjBuilder, recursionLevel + 1);
subobjBuilder.doneFast();
} else if (getType() == BSONType::Array) {
BSONArrayBuilder subarrBuilder(builder->subarrayStart());
for (auto&& value : getArray()) {
value.addToBsonArray(&subarrBuilder, recursionLevel + 1);
}
subarrBuilder.doneFast();
} else {
*builder << *this;
}
}
bool Value::coerceToBool() const {
// TODO Unify the implementation with BSONElement::trueValue().
switch (getType()) {
case CodeWScope:
case MinKey:
case DBRef:
case Code:
case MaxKey:
case String:
case Object:
case Array:
case BinData:
case jstOID:
case Date:
case RegEx:
case Symbol:
case bsonTimestamp:
return true;
case EOO:
case jstNULL:
case Undefined:
return false;
case Bool:
return _storage.boolValue;
case NumberInt:
return _storage.intValue;
case NumberLong:
return _storage.longValue;
case NumberDouble:
return _storage.doubleValue;
case NumberDecimal:
return !_storage.getDecimal().isZero();
}
verify(false);
}
int Value::coerceToInt() const {
switch (getType()) {
case NumberInt:
return _storage.intValue;
case NumberLong:
return static_cast<int>(_storage.longValue);
case NumberDouble:
return static_cast<int>(_storage.doubleValue);
case NumberDecimal:
return (_storage.getDecimal()).toInt();
default:
uassert(16003,
str::stream() << "can't convert from BSON type " << typeName(getType())
<< " to int",
false);
} // switch(getType())
}
long long Value::coerceToLong() const {
switch (getType()) {
case NumberLong:
return _storage.longValue;
case NumberInt:
return static_cast<long long>(_storage.intValue);
case NumberDouble:
return static_cast<long long>(_storage.doubleValue);
case NumberDecimal:
return (_storage.getDecimal()).toLong();
default:
uassert(16004,
str::stream() << "can't convert from BSON type " << typeName(getType())
<< " to long",
false);
} // switch(getType())
}
double Value::coerceToDouble() const {
switch (getType()) {
case NumberDouble:
return _storage.doubleValue;
case NumberInt:
return static_cast<double>(_storage.intValue);
case NumberLong:
return static_cast<double>(_storage.longValue);
case NumberDecimal:
return (_storage.getDecimal()).toDouble();
default:
uassert(16005,
str::stream() << "can't convert from BSON type " << typeName(getType())
<< " to double",
false);
} // switch(getType())
}
Decimal128 Value::coerceToDecimal() const {
switch (getType()) {
case NumberDecimal:
return _storage.getDecimal();
case NumberInt:
return Decimal128(static_cast<int32_t>(_storage.intValue));
case NumberLong:
return Decimal128(static_cast<int64_t>(_storage.longValue));
case NumberDouble:
return Decimal128(_storage.doubleValue);
default:
uassert(16008,
str::stream() << "can't convert from BSON type " << typeName(getType())
<< " to decimal",
false);
} // switch(getType())
}
Date_t Value::coerceToDate() const {
switch (getType()) {
case Date:
return getDate();
case bsonTimestamp:
return Date_t::fromMillisSinceEpoch(getTimestamp().getSecs() * 1000LL);
case jstOID:
return getOid().asDateT();
default:
uassert(16006,
str::stream() << "can't convert from BSON type " << typeName(getType())
<< " to Date",
false);
} // switch(getType())
}
string Value::coerceToString() const {
switch (getType()) {
case NumberDouble:
return str::stream() << _storage.doubleValue;
case NumberInt:
return str::stream() << _storage.intValue;
case NumberLong:
return str::stream() << _storage.longValue;
case NumberDecimal:
return str::stream() << _storage.getDecimal().toString();
case Code:
case Symbol:
case String:
return getRawData().toString();
case bsonTimestamp:
return getTimestamp().toStringPretty();
case Date:
return TimeZoneDatabase::utcZone().formatDate(Value::kISOFormatString, getDate());
case EOO:
case jstNULL:
case Undefined:
return "";
default:
uassert(16007,
str::stream() << "can't convert from BSON type " << typeName(getType())
<< " to String",
false);
} // switch(getType())
}
Timestamp Value::coerceToTimestamp() const {
switch (getType()) {
case bsonTimestamp:
return getTimestamp();
default:
uassert(16378,
str::stream() << "can't convert from BSON type " << typeName(getType())
<< " to timestamp",
false);
} // switch(getType())
}
// Helper function for Value::compare.
// Better than l-r for cases where difference > MAX_INT
template <typename T>
inline static int cmp(const T& left, const T& right) {
if (left < right) {
return -1;
} else if (left == right) {
return 0;
} else {
dassert(left > right);
return 1;
}
}
int Value::compare(const Value& rL,
const Value& rR,
const StringData::ComparatorInterface* stringComparator) {
// Note, this function needs to behave identically to BSONElement::compareElements().
// Additionally, any changes here must be replicated in hash_combine().
BSONType lType = rL.getType();
BSONType rType = rR.getType();
int ret = lType == rType ? 0 // fast-path common case
: cmp(canonicalizeBSONType(lType), canonicalizeBSONType(rType));
if (ret)
return ret;
switch (lType) {
// Order of types is the same as in BSONElement::compareElements() to make it easier to
// verify.
// These are valueless types
case EOO:
case Undefined:
case jstNULL:
case MaxKey:
case MinKey:
return ret;
case Bool:
return rL.getBool() - rR.getBool();
case bsonTimestamp: // unsigned
return cmp(rL._storage.timestampValue, rR._storage.timestampValue);
case Date: // signed
return cmp(rL._storage.dateValue, rR._storage.dateValue);
// Numbers should compare by equivalence even if different types
case NumberDecimal: {
switch (rType) {
case NumberDecimal:
return compareDecimals(rL._storage.getDecimal(), rR._storage.getDecimal());
case NumberInt:
return compareDecimalToInt(rL._storage.getDecimal(), rR._storage.intValue);
case NumberLong:
return compareDecimalToLong(rL._storage.getDecimal(), rR._storage.longValue);
case NumberDouble:
return compareDecimalToDouble(rL._storage.getDecimal(),
rR._storage.doubleValue);
default:
MONGO_UNREACHABLE;
}
}
case NumberInt: {
// All types can precisely represent all NumberInts, so it is safe to simply convert to
// whatever rhs's type is.
switch (rType) {
case NumberInt:
return compareInts(rL._storage.intValue, rR._storage.intValue);
case NumberLong:
return compareLongs(rL._storage.intValue, rR._storage.longValue);
case NumberDouble:
return compareDoubles(rL._storage.intValue, rR._storage.doubleValue);
case NumberDecimal:
return compareIntToDecimal(rL._storage.intValue, rR._storage.getDecimal());
default:
MONGO_UNREACHABLE;
}
}
case NumberLong: {
switch (rType) {
case NumberLong:
return compareLongs(rL._storage.longValue, rR._storage.longValue);
case NumberInt:
return compareLongs(rL._storage.longValue, rR._storage.intValue);
case NumberDouble:
return compareLongToDouble(rL._storage.longValue, rR._storage.doubleValue);
case NumberDecimal:
return compareLongToDecimal(rL._storage.longValue, rR._storage.getDecimal());
default:
MONGO_UNREACHABLE;
}
}
case NumberDouble: {
switch (rType) {
case NumberDouble:
return compareDoubles(rL._storage.doubleValue, rR._storage.doubleValue);
case NumberInt:
return compareDoubles(rL._storage.doubleValue, rR._storage.intValue);
case NumberLong:
return compareDoubleToLong(rL._storage.doubleValue, rR._storage.longValue);
case NumberDecimal:
return compareDoubleToDecimal(rL._storage.doubleValue,
rR._storage.getDecimal());
default:
MONGO_UNREACHABLE;
}
}
case jstOID:
return memcmp(rL._storage.oid, rR._storage.oid, OID::kOIDSize);
case String: {
if (!stringComparator) {
return rL.getStringData().compare(rR.getRawData());
}
return stringComparator->compare(rL.getStringData(), rR.getRawData());
}
case Code:
case Symbol:
return rL.getRawData().compare(rR.getRawData());
case Object:
return Document::compare(rL.getDocument(), rR.getDocument(), stringComparator);
case Array: {
const vector<Value>& lArr = rL.getArray();
const vector<Value>& rArr = rR.getArray();
const size_t elems = std::min(lArr.size(), rArr.size());
for (size_t i = 0; i < elems; i++) {
// compare the two corresponding elements
ret = Value::compare(lArr[i], rArr[i], stringComparator);
if (ret)
return ret; // values are unequal
}
// if we get here we are either equal or one is prefix of the other
return cmp(lArr.size(), rArr.size());
}
case DBRef: {
intrusive_ptr<const RCDBRef> l = rL._storage.getDBRef();
intrusive_ptr<const RCDBRef> r = rR._storage.getDBRef();
ret = cmp(l->ns.size(), r->ns.size());
if (ret)
return ret;
return l->oid.compare(r->oid);
}
case BinData: {
ret = cmp(rL.getRawData().size(), rR.getRawData().size());
if (ret)
return ret;
// Need to compare as an unsigned char rather than enum since BSON uses memcmp
ret = cmp(rL._storage.binSubType, rR._storage.binSubType);
if (ret)
return ret;
return rL.getRawData().compare(rR.getRawData());
}
case RegEx:
// same as String in this impl but keeping order same as
// BSONElement::compareElements().
return rL.getRawData().compare(rR.getRawData());
case CodeWScope: {
intrusive_ptr<const RCCodeWScope> l = rL._storage.getCodeWScope();
intrusive_ptr<const RCCodeWScope> r = rR._storage.getCodeWScope();
ret = l->code.compare(r->code);
if (ret)
return ret;
return l->scope.woCompare(r->scope);
}
}
verify(false);
}
void Value::hash_combine(size_t& seed,
const StringData::ComparatorInterface* stringComparator) const {
BSONType type = getType();
boost::hash_combine(seed, canonicalizeBSONType(type));
switch (type) {
// Order of types is the same as in Value::compare() and BSONElement::compareElements().
// These are valueless types
case EOO:
case Undefined:
case jstNULL:
case MaxKey:
case MinKey:
return;
case Bool:
boost::hash_combine(seed, getBool());
break;
case bsonTimestamp:
case Date:
MONGO_STATIC_ASSERT(sizeof(_storage.dateValue) == sizeof(_storage.timestampValue));
boost::hash_combine(seed, _storage.dateValue);
break;
case mongo::NumberDecimal: {
const Decimal128 dcml = getDecimal();
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(seed, dcmlNorm.getValue().low64);
boost::hash_combine(seed, 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.
}
// 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 inside of the valid double range. See
// the above case.)
// SERVER-16851
case NumberDouble:
case NumberLong:
case NumberInt: {
const double dbl = getDouble();
if (std::isnan(dbl)) {
boost::hash_combine(seed, numeric_limits<double>::quiet_NaN());
} else {
boost::hash_combine(seed, dbl);
}
break;
}
case jstOID:
getOid().hash_combine(seed);
break;
case Code:
case Symbol: {
StringData sd = getRawData();
MurmurHash3_x86_32(sd.rawData(), sd.size(), seed, &seed);
break;
}
case String: {
StringData sd = getStringData();
if (stringComparator) {
stringComparator->hash_combine(seed, sd);
} else {
MurmurHash3_x86_32(sd.rawData(), sd.size(), seed, &seed);
}
break;
}
case Object:
getDocument().hash_combine(seed, stringComparator);
break;
case Array: {
const vector<Value>& vec = getArray();
for (size_t i = 0; i < vec.size(); i++)
vec[i].hash_combine(seed, stringComparator);
break;
}
case DBRef:
boost::hash_combine(seed, _storage.getDBRef()->ns);
_storage.getDBRef()->oid.hash_combine(seed);
break;
case BinData: {
StringData sd = getRawData();
MurmurHash3_x86_32(sd.rawData(), sd.size(), seed, &seed);
boost::hash_combine(seed, _storage.binDataType());
break;
}
case RegEx: {
StringData sd = getRawData();
MurmurHash3_x86_32(sd.rawData(), sd.size(), seed, &seed);
break;
}
case CodeWScope: {
intrusive_ptr<const RCCodeWScope> cws = _storage.getCodeWScope();
SimpleStringDataComparator::kInstance.hash_combine(seed, cws->code);
SimpleBSONObjComparator::kInstance.hash_combine(seed, cws->scope);
break;
}
}
}
BSONType Value::getWidestNumeric(BSONType lType, BSONType rType) {
if (lType == NumberDouble) {
switch (rType) {
case NumberDecimal:
return NumberDecimal;
case NumberDouble:
case NumberLong:
case NumberInt:
return NumberDouble;
default:
break;
}
} else if (lType == NumberLong) {
switch (rType) {
case NumberDecimal:
return NumberDecimal;
case NumberDouble:
return NumberDouble;
case NumberLong:
case NumberInt:
return NumberLong;
default:
break;
}
} else if (lType == NumberInt) {
switch (rType) {
case NumberDecimal:
return NumberDecimal;
case NumberDouble:
return NumberDouble;
case NumberLong:
return NumberLong;
case NumberInt:
return NumberInt;
default:
break;
}
} else if (lType == NumberDecimal) {
switch (rType) {
case NumberInt:
case NumberLong:
case NumberDouble:
case NumberDecimal:
return NumberDecimal;
default:
break;
}
}
// Reachable, but callers must subsequently err out in this case.
return Undefined;
}
bool Value::integral() const {
switch (getType()) {
case NumberInt:
return true;
case NumberLong:
return bool(representAs<int>(_storage.longValue));
case NumberDouble:
return bool(representAs<int>(_storage.doubleValue));
case NumberDecimal: {
// If we are able to convert the decimal to an int32_t without any rounding errors,
// then it is integral.
uint32_t signalingFlags = Decimal128::kNoFlag;
(void)_storage.getDecimal().toIntExact(&signalingFlags);
return signalingFlags == Decimal128::kNoFlag;
}
default:
return false;
}
}
bool Value::integral64Bit() const {
switch (getType()) {
case NumberInt:
case NumberLong:
return true;
case NumberDouble:
return bool(representAs<int64_t>(_storage.doubleValue));
case NumberDecimal: {
// If we are able to convert the decimal to an int64_t without any rounding errors,
// then it is a 64-bit.
uint32_t signalingFlags = Decimal128::kNoFlag;
(void)_storage.getDecimal().toLongExact(&signalingFlags);
return signalingFlags == Decimal128::kNoFlag;
}
default:
return false;
}
}
size_t Value::getApproximateSize() const {
switch (getType()) {
case Code:
case RegEx:
case Symbol:
case BinData:
case String:
return sizeof(Value) + (_storage.shortStr
? 0 // string stored inline, so no extra mem usage
: sizeof(RCString) + _storage.getString().size());
case Object:
return sizeof(Value) + getDocument().getApproximateSize();
case Array: {
size_t size = sizeof(Value);
size += sizeof(RCVector);
const size_t n = getArray().size();
for (size_t i = 0; i < n; ++i) {
size += getArray()[i].getApproximateSize();
}
return size;
}
case CodeWScope:
return sizeof(Value) + sizeof(RCCodeWScope) + _storage.getCodeWScope()->code.size() +
_storage.getCodeWScope()->scope.objsize();
case DBRef:
return sizeof(Value) + sizeof(RCDBRef) + _storage.getDBRef()->ns.size();
case NumberDecimal:
return sizeof(Value) + sizeof(RCDecimal);
// These types are always contained within the Value
case EOO:
case MinKey:
case MaxKey:
case NumberDouble:
case jstOID:
case Bool:
case Date:
case NumberInt:
case bsonTimestamp:
case NumberLong:
case jstNULL:
case Undefined:
return sizeof(Value);
}
verify(false);
}
string Value::toString() const {
// TODO use StringBuilder when operator << is ready
stringstream out;
out << *this;
return out.str();
}
ostream& operator<<(ostream& out, const Value& val) {
switch (val.getType()) {
case EOO:
return out << "MISSING";
case MinKey:
return out << "MinKey";
case MaxKey:
return out << "MaxKey";
case jstOID:
return out << val.getOid();
case String:
return out << '"' << val.getString() << '"';
case RegEx:
return out << '/' << val.getRegex() << '/' << val.getRegexFlags();
case Symbol:
return out << "Symbol(\"" << val.getSymbol() << "\")";
case Code:
return out << "Code(\"" << val.getCode() << "\")";
case Bool:
return out << (val.getBool() ? "true" : "false");
case NumberDecimal:
return out << val.getDecimal().toString();
case NumberDouble:
return out << val.getDouble();
case NumberLong:
return out << val.getLong();
case NumberInt:
return out << val.getInt();
case jstNULL:
return out << "null";
case Undefined:
return out << "undefined";
case Date:
return out << TimeZoneDatabase::utcZone().formatDate(Value::kISOFormatString,
val.coerceToDate());
case bsonTimestamp:
return out << val.getTimestamp().toString();
case Object:
return out << val.getDocument().toString();
case Array: {
out << "[";
const size_t n = val.getArray().size();
for (size_t i = 0; i < n; i++) {
if (i)
out << ", ";
out << val.getArray()[i];
}
out << "]";
return out;
}
case CodeWScope:
return out << "CodeWScope(\"" << val._storage.getCodeWScope()->code << "\", "
<< val._storage.getCodeWScope()->scope << ')';
case BinData:
return out << "BinData(" << val._storage.binDataType() << ", \""
<< toHex(val._storage.getString().rawData(), val._storage.getString().size())
<< "\")";
case DBRef:
return out << "DBRef(\"" << val._storage.getDBRef()->ns << "\", "
<< val._storage.getDBRef()->oid << ')';
}
// Not in default case to trigger better warning if a case is missing
verify(false);
}
void Value::serializeForSorter(BufBuilder& buf) const {
buf.appendChar(getType());
switch (getType()) {
// type-only types
case EOO:
case MinKey:
case MaxKey:
case jstNULL:
case Undefined:
break;
// simple types
case jstOID:
buf.appendStruct(_storage.oid);
break;
case NumberInt:
buf.appendNum(_storage.intValue);
break;
case NumberLong:
buf.appendNum(_storage.longValue);
break;
case NumberDouble:
buf.appendNum(_storage.doubleValue);
break;
case NumberDecimal:
buf.appendNum(_storage.getDecimal());
break;
case Bool:
buf.appendChar(_storage.boolValue);
break;
case Date:
buf.appendNum(_storage.dateValue);
break;
case bsonTimestamp:
buf.appendStruct(getTimestamp());
break;
// types that are like strings
case String:
case Symbol:
case Code: {
StringData str = getRawData();
buf.appendNum(int(str.size()));
buf.appendStr(str, /*NUL byte*/ false);
break;
}
case BinData: {
StringData str = getRawData();
buf.appendChar(_storage.binDataType());
buf.appendNum(int(str.size()));
buf.appendStr(str, /*NUL byte*/ false);
break;
}
case RegEx:
buf.appendStr(getRegex(), /*NUL byte*/ true);
buf.appendStr(getRegexFlags(), /*NUL byte*/ true);
break;
case Object:
getDocument().serializeForSorter(buf);
break;
case DBRef:
buf.appendStruct(_storage.getDBRef()->oid);
buf.appendStr(_storage.getDBRef()->ns, /*NUL byte*/ true);
break;
case CodeWScope: {
intrusive_ptr<const RCCodeWScope> cws = _storage.getCodeWScope();
buf.appendNum(int(cws->code.size()));
buf.appendStr(cws->code, /*NUL byte*/ false);
cws->scope.serializeForSorter(buf);
break;
}
case Array: {
const vector<Value>& array = getArray();
const int numElems = array.size();
buf.appendNum(numElems);
for (int i = 0; i < numElems; i++)
array[i].serializeForSorter(buf);
break;
}
}
}
Value Value::deserializeForSorter(BufReader& buf, const SorterDeserializeSettings& settings) {
const BSONType type = BSONType(buf.read<signed char>()); // need sign extension for MinKey
switch (type) {
// type-only types
case EOO:
case MinKey:
case MaxKey:
case jstNULL:
case Undefined:
return Value(ValueStorage(type));
// simple types
case jstOID:
return Value(OID::from(buf.skip(OID::kOIDSize)));
case NumberInt:
return Value(buf.read<LittleEndian<int>>().value);
case NumberLong:
return Value(buf.read<LittleEndian<long long>>().value);
case NumberDouble:
return Value(buf.read<LittleEndian<double>>().value);
case NumberDecimal:
return Value(Decimal128(buf.read<LittleEndian<Decimal128::Value>>().value));
case Bool:
return Value(bool(buf.read<char>()));
case Date:
return Value(Date_t::fromMillisSinceEpoch(buf.read<LittleEndian<long long>>().value));
case bsonTimestamp:
return Value(buf.read<Timestamp>());
// types that are like strings
case String:
case Symbol:
case Code: {
int size = buf.read<LittleEndian<int>>();
const char* str = static_cast<const char*>(buf.skip(size));
return Value(ValueStorage(type, StringData(str, size)));
}
case BinData: {
BinDataType bdt = BinDataType(buf.read<unsigned char>());
int size = buf.read<LittleEndian<int>>();
const void* data = buf.skip(size);
return Value(BSONBinData(data, size, bdt));
}
case RegEx: {
StringData regex = buf.readCStr();
StringData flags = buf.readCStr();
return Value(BSONRegEx(regex, flags));
}
case Object:
return Value(
Document::deserializeForSorter(buf, Document::SorterDeserializeSettings()));
case DBRef: {
OID oid = OID::from(buf.skip(OID::kOIDSize));
StringData ns = buf.readCStr();
return Value(BSONDBRef(ns, oid));
}
case CodeWScope: {
int size = buf.read<LittleEndian<int>>();
const char* str = static_cast<const char*>(buf.skip(size));
BSONObj bson = BSONObj::deserializeForSorter(buf, BSONObj::SorterDeserializeSettings());
return Value(BSONCodeWScope(StringData(str, size), bson));
}
case Array: {
const int numElems = buf.read<LittleEndian<int>>();
vector<Value> array;
array.reserve(numElems);
for (int i = 0; i < numElems; i++)
array.push_back(deserializeForSorter(buf, settings));
return Value(std::move(array));
}
}
verify(false);
}
void Value::serializeForIDL(StringData fieldName, BSONObjBuilder* builder) const {
addToBsonObj(builder, fieldName);
}
void Value::serializeForIDL(BSONArrayBuilder* builder) const {
addToBsonArray(builder);
}
Value Value::deserializeForIDL(const BSONElement& element) {
return Value(element);
}
} // namespace mongo
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