src/libbson/include/bsonl/bsonobjbuilder.h
/* bsonobjbuilder.h
Classes in this file:
BSONObjBuilder
BSONArrayBuilder
*/
/* 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 <limits>
#include <cmath>
using namespace std;
namespace bson {
#if defined(_WIN32)
// warning: 'this' : used in base member initializer list
#pragma warning( disable : 4355 )
#endif
template<typename T>
class BSONFieldValue {
public:
BSONFieldValue( const string& name , const T& t ) {
_name = name;
_t = t;
}
const T& value() const { return _t; }
const string& name() const { return _name; }
private:
string _name;
T _t;
};
template<typename T>
class BSONField {
public:
BSONField( const string& name , const string& longName="" )
: _name(name), _longName(longName) {}
const string& name() const { return _name; }
operator string() const { return _name; }
BSONFieldValue<T> make( const T& t ) const {
return BSONFieldValue<T>( _name , t );
}
BSONFieldValue<BSONObj> gt( const T& t ) const
{ return query( "$gt" , t ); }
BSONFieldValue<BSONObj> lt( const T& t ) const
{ return query( "$lt" , t ); }
BSONFieldValue<BSONObj> query( const char * q , const T& t ) const;
BSONFieldValue<T> operator()( const T& t ) const {
return BSONFieldValue<T>( _name , t );
}
private:
string _name;
string _longName;
};
/** Utility for creating a BSONObj.
See also the BSON() and BSON_ARRAY() macros.
*/
class BSONObjBuilder : boost::noncopyable {
public:
/** @param initsize this is just a hint as to the final size of the
object */
BSONObjBuilder(int initsize=512) : _b(_buf), _buf(initsize + sizeof(unsigned)),
_offset( sizeof(unsigned) ), _s( this ) , _tracker(0) , _doneCalled(false) {
_b.appendNum((unsigned)0);
_b.skip(4); /*leave room for size field and ref-count*/
}
/** @param baseBuilder construct a BSONObjBuilder using an existing BufBuilder
* This is for more efficient adding of subobjects/arrays. See docs for
* subobjStart for example.
*/
BSONObjBuilder( BufBuilder &baseBuilder ) : _b( baseBuilder ), _buf( 0 ),
_offset( baseBuilder.len() ), _s( this ) , _tracker(0) , _doneCalled(false) {
_b.skip( 4 );
}
BSONObjBuilder( const BSONSizeTracker & tracker ) : _b(_buf) ,
_buf(tracker.getSize() + sizeof(unsigned) ), _offset( sizeof(unsigned) ),
_s( this ) , _tracker( (BSONSizeTracker*)(&tracker) ) , _doneCalled(false) {
_b.appendNum((unsigned)0); // ref-count
_b.skip(4);
}
~BSONObjBuilder() {
if ( !_doneCalled && _b.buf() && _buf.getSize() == 0 ) {
_done();
}
}
/** add all the fields from the object specified to this object */
BSONObjBuilder& appendElements(BSONObj x);
/** add all the fields from the object specified to this object if they
don't exist already */
BSONObjBuilder& appendElementsUnique( BSONObj x );
/** append element to the object we are building */
BSONObjBuilder& append( const BSONElement& e) {
assert( !e.eoo() ); // do not append eoo, that would corrupt us.
// the builder auto appends when done() is called.
_b.appendBuf((void*) e.rawdata(), e.size());
return *this;
}
/** append an element but with a new name */
BSONObjBuilder& appendAs(const BSONElement& e,
const StringData& fieldName) {
assert( !e.eoo() ); // do not append eoo, that would corrupt us.
// the builder auto appends when done() is called.
_b.appendNum((char) e.type());
_b.appendStr(fieldName);
_b.appendBuf((void *) e.value(), e.valuesize());
return *this;
}
/** add a subobject as a member */
BSONObjBuilder& append(const StringData& fieldName, BSONObj subObj) {
_b.appendNum((char) Object);
_b.appendStr(fieldName);
_b.appendBuf((void *) subObj.objdata(), subObj.objsize());
return *this;
}
/** add a subobject as a member */
BSONObjBuilder& appendObject(const StringData& fieldName,
const char * objdata , int size = 0 ) {
assert( objdata );
if ( size == 0 ) {
size = *((int*)objdata);
}
assert( size > 4 && size < 100000000 );
_b.appendNum((char) Object);
_b.appendStr(fieldName);
_b.appendBuf((void*)objdata, size );
return *this;
}
/** add header for a new subobject and return bufbuilder for writing to
* the subobject's body
*
* example:
*
* BSONObjBuilder b;
* BSONObjBuilder sub (b.subobjStart("fieldName"));
* // use sub
* sub.done()
* // use b and convert to object
*/
BufBuilder &subobjStart(const StringData& fieldName) {
_b.appendNum((char) Object);
_b.appendStr(fieldName);
return _b;
}
/** add a subobject as a member with type Array. Thus arr object should
have "0", "1", ... style fields in it.
*/
BSONObjBuilder& appendArray(const StringData& fieldName,
const BSONObj &subObj) {
_b.appendNum((char) Array);
_b.appendStr(fieldName);
_b.appendBuf((void *) subObj.objdata(), subObj.objsize());
return *this;
}
BSONObjBuilder& append(const StringData& fieldName, BSONArray arr) {
return appendArray(fieldName, arr);
}
/** add header for a new subarray and return bufbuilder for writing to
the subarray's body */
BufBuilder &subarrayStart(const StringData& fieldName) {
_b.appendNum((char) Array);
_b.appendStr(fieldName);
return _b;
}
/** Append a boolean element */
BSONObjBuilder& appendBool(const StringData& fieldName, int val) {
_b.appendNum((char) Bool);
_b.appendStr(fieldName);
_b.appendNum((char) (val?1:0));
return *this;
}
/** Append a boolean element */
BSONObjBuilder& append(const StringData& fieldName, bool val) {
_b.appendNum((char) Bool);
_b.appendStr(fieldName);
_b.appendNum((char) (val?1:0));
return *this;
}
/** Append a 32 bit integer element */
BSONObjBuilder& append(const StringData& fieldName, int n) {
_b.appendNum((char) NumberInt);
_b.appendStr(fieldName);
_b.appendNum(n);
return *this;
}
/** Append a 32 bit unsigned element - cast to a signed int. */
BSONObjBuilder& append(const StringData& fieldName, unsigned n) {
return append(fieldName, (int) n);
}
/** Append a NumberLong */
BSONObjBuilder& append(const StringData& fieldName, long long n) {
_b.appendNum((char) NumberLong);
_b.appendStr(fieldName);
_b.appendNum(n);
return *this;
}
/** appends a number. if n < max(int)/2 then uses int,
otherwise long long */
BSONObjBuilder& appendIntOrLL( const StringData& fieldName ,
long long n ) {
long long x = n;
if ( x < 0 )
x = x * -1;
if ( x < ( (numeric_limits<int>::max)() / 2 ) ) // extra () to avoid max macro on windows
append( fieldName , (int)n );
else
append( fieldName , n );
return *this;
}
/**
* appendNumber is a series of method for appending the smallest
* sensible type. mostly for JS
*/
BSONObjBuilder& appendNumber( const StringData& fieldName , int n ) {
return append( fieldName , n );
}
BSONObjBuilder& appendNumber( const StringData& fieldName , double d ) {
return append( fieldName , d );
}
BSONObjBuilder& appendNumber( const StringData& fieldName , size_t n ) {
static size_t maxInt = (size_t)pow( 2.0 , 30.0 );
if ( n < maxInt )
append( fieldName , (int)n );
else
append( fieldName , (long long)n );
return *this;
}
BSONObjBuilder& appendNumber( const StringData& fieldName ,
long long l ) {
static long long maxInt = (int)pow( 2.0 , 30.0 );
static long long maxDouble = (long long)pow( 2.0 , 40.0 );
long long x = l >= 0 ? l : -l;
if ( x < maxInt )
append( fieldName , (int)l );
else if ( x < maxDouble )
append( fieldName , (double)l );
else
append( fieldName , l );
return *this;
}
/** Append a double element */
BSONObjBuilder& append(const StringData& fieldName, double n) {
_b.appendNum((char) NumberDouble);
_b.appendStr(fieldName);
_b.appendNum(n);
return *this;
}
/** tries to append the data as a number
* @return true if the data was able to be converted to a number
*/
bool appendAsNumber( const StringData& fieldName , const string& data );
/** Append a BSON Object ID (OID type).
@deprecated Generally, it is preferred to use the append
append(name, oid) method for this.
*/
BSONObjBuilder& appendOID(const StringData& fieldName, OID *oid = 0 ,
bool generateIfBlank = false ) {
_b.appendNum((char) jstOID);
_b.appendStr(fieldName);
if ( oid )
_b.appendBuf( (void *) oid, 12 );
else {
OID tmp;
if ( generateIfBlank )
tmp.init();
else
tmp.clear();
_b.appendBuf( (void *) &tmp, 12 );
}
return *this;
}
/**
Append a BSON Object ID.
@param fieldName Field name, e.g., "_id".
@returns the builder object
*/
BSONObjBuilder& append( const StringData& fieldName, OID oid ) {
_b.appendNum((char) jstOID);
_b.appendStr(fieldName);
_b.appendBuf( (void *) &oid, 12 );
return *this;
}
/**
Generate and assign an object id for the _id field.
_id should be the first element in the object for good performance.
*/
BSONObjBuilder& genOID() {
return append("_id", OID::gen());
}
/** Append a time_t date.
@param dt a C-style 32 bit date value, that is
the number of seconds since January 1, 1970, 00:00:00 GMT
*/
BSONObjBuilder& appendTimeT(const StringData& fieldName, time_t dt) {
_b.appendNum((char) Date);
_b.appendStr(fieldName);
_b.appendNum(static_cast<unsigned long long>(dt) * 1000);
return *this;
}
/** Append a date.
@param dt a Java-style 64 bit date value, that is
the number of milliseconds since January 1, 1970, 00:00:00 GMT
*/
BSONObjBuilder& appendDate(const StringData& fieldName, Date_t dt) {
/* easy to pass a time_t to this and get a bad result.
thus this warning. */
#if defined(_DEBUG) && defined(MONGO_EXPOSE_MACROS)
if( dt > 0 && dt <= 0xffffffff ) {
static int n;
if( n++ == 0 )
log() << "DEV WARNING appendDate() called with a tiny "
"(but nonzero) date" << endl;
}
#endif
_b.appendNum((char) Date);
_b.appendStr(fieldName);
_b.appendNum(dt);
return *this;
}
BSONObjBuilder& append(const StringData& fieldName, Date_t dt) {
return appendDate(fieldName, dt);
}
/** Append a regular expression value
@param regex the regular expression pattern
@param regex options such as "i" or "g"
*/
BSONObjBuilder& appendRegex(const StringData& fieldName,
const StringData& regex, const StringData& options = "") {
_b.appendNum((char) RegEx);
_b.appendStr(fieldName);
_b.appendStr(regex);
_b.appendStr(options);
return *this;
}
BSONObjBuilder& appendCode(const StringData& fieldName,
const StringData& code) {
_b.appendNum((char) Code);
_b.appendStr(fieldName);
_b.appendNum((int) code.size()+1);
_b.appendStr(code);
return *this;
}
/** Append a string element.
@param sz size includes terminating null character */
BSONObjBuilder& append(const StringData& fieldName, const char *str,
int sz) {
_b.appendNum((char) String);
_b.appendStr(fieldName);
_b.appendNum((int)sz);
_b.appendBuf(str, sz);
return *this;
}
/** Append a string element */
BSONObjBuilder& append(const StringData& fieldName, const char *str) {
return append(fieldName, str, (int) strlen(str)+1);
}
/** Append a string element */
BSONObjBuilder& append(const StringData& fieldName, const string& str) {
return append(fieldName, str.c_str(), (int) str.size()+1);
}
BSONObjBuilder& appendSymbol(const StringData& fieldName,
const StringData& symbol) {
_b.appendNum((char) Symbol);
_b.appendStr(fieldName);
_b.appendNum((int) symbol.size()+1);
_b.appendStr(symbol);
return *this;
}
/** Append a Null element to the object */
BSONObjBuilder& appendNull( const StringData& fieldName ) {
_b.appendNum( (char) jstNULL );
_b.appendStr( fieldName );
return *this;
}
// Append an element that is less than all other keys.
BSONObjBuilder& appendMinKey( const StringData& fieldName ) {
_b.appendNum( (char) MinKey );
_b.appendStr( fieldName );
return *this;
}
// Append an element that is greater than all other keys.
BSONObjBuilder& appendMaxKey( const StringData& fieldName ) {
_b.appendNum( (char) MaxKey );
_b.appendStr( fieldName );
return *this;
}
// Append a Timestamp field -- will be updated to next OpTime on db
// insert.
BSONObjBuilder& appendTimestamp( const StringData& fieldName ) {
_b.appendNum( (char) Timestamp );
_b.appendStr( fieldName );
_b.appendNum( (unsigned long long) 0 );
return *this;
}
BSONObjBuilder& appendTimestamp( const StringData& fieldName , unsigned long long val ) {
_b.appendNum( (char) Timestamp );
_b.appendStr( fieldName );
_b.appendNum( val );
return *this;
}
/**
Timestamps are a special BSON datatype that is used internally for
replication. Append a timestamp element to the object being ebuilt.
@param time - in millis (but stored in seconds)
*/
BSONObjBuilder& appendTimestamp( const StringData& fieldName ,
unsigned long long time , unsigned int inc );
/*
Append an element of the deprecated DBRef type.
@deprecated
*/
BSONObjBuilder& appendDBRef( const StringData& fieldName,
const StringData& ns, const OID &oid ) {
_b.appendNum( (char) DBRef );
_b.appendStr( fieldName );
_b.appendNum( (int) ns.size() + 1 );
_b.appendStr( ns );
_b.appendBuf( (void *) &oid, 12 );
return *this;
}
/** Append a binary data element
@param fieldName name of the field
@param len length of the binary data in bytes
@param subtype subtype information for the data.
@see enum BinDataType in bsontypes.h.
Use BinDataGeneral if you don't care about the type.
@param data the byte array
*/
BSONObjBuilder& appendBinData( const StringData& fieldName, int len,
BinDataType type, const char *data ) {
_b.appendNum( (char) BinData );
_b.appendStr( fieldName );
_b.appendNum( len );
_b.appendNum( (char) type );
_b.appendBuf( (void *) data, len );
return *this;
}
BSONObjBuilder& appendBinData( const StringData& fieldName, int len,
BinDataType type, const unsigned char *data ) {
return appendBinData(fieldName, len, type, (const char *) data);
}
/**
Subtype 2 is deprecated.
Append a BSON bindata bytearray element.
@param data a byte array
@param len the length of data
*/
BSONObjBuilder& appendBinDataArrayDeprecated( const char * fieldName ,
const char * data , int len ) {
_b.appendNum( (char) BinData );
_b.appendStr( fieldName );
_b.appendNum( len + 4 );
_b.appendNum( (char)0x2 );
_b.appendNum( len );
_b.appendBuf( (void *) data, len );
return *this;
}
/** Append to the BSON object a field of type CodeWScope. This is a
js code fragment accompanied by some scope that goes with it.
*/
BSONObjBuilder& appendCodeWScope( const StringData& fieldName,
const StringData& code, const BSONObj &scope ) {
_b.appendNum( (char) CodeWScope );
_b.appendStr( fieldName );
_b.appendNum( ( int )( 4 + 4 + code.size() + 1 + scope.objsize() ));
_b.appendNum( ( int ) code.size() + 1 );
_b.appendStr( code );
_b.appendBuf( ( void * )scope.objdata(), scope.objsize() );
return *this;
}
void appendUndefined( const StringData& fieldName ) {
_b.appendNum( (char) Undefined );
_b.appendStr( fieldName );
}
/* helper function -- see Query::where() for primary way to do this. */
void appendWhere( const StringData& code, const BSONObj &scope ) {
appendCodeWScope( "$where" , code , scope );
}
/**
these are the min/max when comparing,
not strict min/max elements for a given type
*/
void appendMinForType( const StringData& fieldName , int type );
void appendMaxForType( const StringData& fieldName , int type );
/** Append an array of values. */
template < class T >
BSONObjBuilder& append( const StringData& fieldName,
const vector< T >& vals );
template < class T >
BSONObjBuilder& append( const StringData& fieldName,
const list< T >& vals );
/** Append a set of values. */
template < class T >
BSONObjBuilder& append( const StringData& fieldName, const set< T >& vals );
/**
* destructive
* The returned BSONObj will free the buffer when it is finished.
* @return owned BSONObj
*/
BSONObj obj() {
bool own = owned();
massert( 10335 , "builder does not own memory", own );
doneFast();
BSONObj::Holder* h = (BSONObj::Holder*)_b.buf();
decouple(); // sets _b.buf() to NULL
return BSONObj(h);
}
/** Fetch the object we have built.
BSONObjBuilder still frees the object when the builder goes out of
scope -- very important to keep in mind. Use obj() if you
would like the BSONObj to last longer than the builder.
*/
BSONObj done() {
return BSONObj(_done());
}
// Like 'done' above, but does not construct a BSONObj
// to return to the caller.
void doneFast() {
(void)_done();
}
/** Peek at what is in the builder, but leave the builder ready for more
appends. The returned object is only valid until the next
modification or destruction of the builder.
Intended use case: append a field if not already there.
*/
BSONObj asTempObj() {
BSONObj temp(_done());
_b.setlen(_b.len()-1); //next append should overwrite the EOO
_doneCalled = false;
return temp;
}
/* assume ownership of the buffer
you must then free it (with free()) */
char* decouple(int& l) {
char *x = _done();
assert( x );
l = _b.len();
_b.decouple();
return x;
}
void decouple() {
_b.decouple(); // post done() call version. be sure jsobj frees...
}
void appendKeys( const BSONObj& keyPattern , const BSONObj& values );
static string numStr( int i ) {
if (i>=0 && i<100)
return numStrs[i];
StringBuilder o;
o << i;
return o.str();
}
/** Stream oriented way to add field names and values. */
BSONObjBuilderValueStream &operator<<(const char * name ) {
_s.endField( name );
return _s;
}
/** Stream oriented way to add field names and values. */
BSONObjBuilder& operator<<( GENOIDLabeler ) { return genOID(); }
// prevent implicit string conversions which would allow bad things
// like BSON( BSON( "foo" << 1 ) << 2 )
struct ForceExplicitString {
ForceExplicitString( const string &str ) : str_( str ) {}
string str_;
};
/** Stream oriented way to add field names and values. */
BSONObjBuilderValueStream &operator<<( const ForceExplicitString& name )
{ return operator<<( name.str_.c_str() ); }
Labeler operator<<( const Labeler::Label &l ) {
massert( 10336 , "No subobject started", _s.subobjStarted() );
return _s << l;
}
template<typename T>
BSONObjBuilderValueStream& operator<<( const BSONField<T>& f ) {
_s.endField( f.name().c_str() );
return _s;
}
template<typename T>
BSONObjBuilder& operator<<( const BSONFieldValue<T>& v ) {
append( v.name().c_str() , v.value() );
return *this;
}
/** @return true if we are using our own bufbuilder, and not an
alternate that was given to us in our constructor */
bool owned() const { return &_b == &_buf; }
BSONObjIterator iterator() const ;
bool hasField( const StringData& name ) const ;
int len() const { return _b.len(); }
BufBuilder& bb() { return _b; }
private:
char* _done() {
if ( _doneCalled )
return _b.buf() + _offset;
_doneCalled = true;
_s.endField();
_b.appendNum((char) EOO);
char *data = _b.buf() + _offset;
int size = _b.len() - _offset;
*((int*)data) = size;
if ( _tracker )
_tracker->got( size );
return data;
}
BufBuilder &_b;
BufBuilder _buf;
int _offset;
BSONObjBuilderValueStream _s;
BSONSizeTracker * _tracker;
bool _doneCalled;
static const string numStrs[100]; // cache of 0 to 99 inclusive
};
class BSONArrayBuilder : boost::noncopyable {
public:
BSONArrayBuilder() : _i(0), _b() {}
BSONArrayBuilder( BufBuilder &_b ) : _i(0), _b(_b) {}
BSONArrayBuilder( int initialSize ) : _i(0), _b(initialSize) {}
template <typename T>
BSONArrayBuilder& append(const T& x) {
_b.append(num(), x);
return *this;
}
BSONArrayBuilder& append(const BSONElement& e) {
_b.appendAs(e, num());
return *this;
}
template <typename T>
BSONArrayBuilder& operator<<(const T& x) {
return append(x);
}
void appendNull() {
_b.appendNull(num());
}
/**
* destructive - ownership moves to returned BSONArray
* @return owned BSONArray
*/
BSONArray arr() { return BSONArray(_b.obj()); }
BSONObj done() { return _b.done(); }
void doneFast() { _b.doneFast(); }
template <typename T>
BSONArrayBuilder& append(const StringData& name, const T& x) {
fill( name );
append( x );
return *this;
}
// These two just use next position
BufBuilder &subobjStart() { return _b.subobjStart( num() ); }
BufBuilder &subarrayStart() { return _b.subarrayStart( num() ); }
// These fill missing entries up to pos. if pos is < next pos is ignored
BufBuilder &subobjStart(int pos) {
fill(pos);
return _b.subobjStart( num() );
}
BufBuilder &subarrayStart(int pos) {
fill(pos);
return _b.subarrayStart( num() );
}
// These should only be used where you really need interface compatability with BSONObjBuilder
// Currently they are only used by update.cpp and it should probably stay that way
BufBuilder &subobjStart( const StringData& name ) {
fill( name );
return _b.subobjStart( num() );
}
BufBuilder &subarrayStart( const char *name ) {
fill( name );
return _b.subarrayStart( num() );
}
void appendArray( const StringData& name, BSONObj subObj ) {
fill( name );
_b.appendArray( num(), subObj );
}
void appendAs( const BSONElement &e, const char *name) {
fill( name );
append( e );
}
int len() const { return _b.len(); }
private:
void fill( const StringData& name ) {
char *r;
long int n = strtol( name.data(), &r, 10 );
if ( *r )
uasserted( 13048, (string)"can't append to array using string"
" field name [" + name.data() + "]" );
fill(n);
}
void fill (int upTo){
while( _i < upTo )
append( nullElt() );
}
static BSONElement nullElt() {
static BSONObj n = nullObj();
return n.firstElement();
}
static BSONObj nullObj() {
BSONObjBuilder _b;
_b.appendNull( "" );
return _b.obj();
}
string num() { return _b.numStr(_i++); }
int _i;
BSONObjBuilder _b;
};
template < class T >
inline BSONObjBuilder& BSONObjBuilder::append( const StringData& fieldName,
const vector< T >& vals ) {
BSONObjBuilder arrBuilder;
for ( unsigned int i = 0; i < vals.size(); ++i )
arrBuilder.append( numStr( i ), vals[ i ] );
appendArray( fieldName, arrBuilder.done() );
return *this;
}
template < class L >
inline BSONObjBuilder& _appendIt( BSONObjBuilder& _this, const StringData& fieldName, const L& vals ) {
BSONObjBuilder arrBuilder;
int n = 0;
for( typename L::const_iterator i = vals.begin(); i != vals.end(); i++ )
arrBuilder.append( BSONObjBuilder::numStr(n++), *i );
_this.appendArray( fieldName, arrBuilder.done() );
return _this;
}
template < class T >
inline BSONObjBuilder& BSONObjBuilder::append( const StringData& fieldName, const list< T >& vals ) {
return _appendIt< list< T > >( *this, fieldName, vals );
}
template < class T >
inline BSONObjBuilder& BSONObjBuilder::append( const StringData& fieldName, const set< T >& vals ) {
return _appendIt< set< T > >( *this, fieldName, vals );
}
// $or helper: OR(BSON("x" << GT << 7), BSON("y" << LT 6));
inline BSONObj OR(const BSONObj& a, const BSONObj& b)
{ return BSON( "$or" << BSON_ARRAY(a << b) ); }
inline BSONObj OR(const BSONObj& a, const BSONObj& b, const BSONObj& c)
{ return BSON( "$or" << BSON_ARRAY(a << b << c) ); }
inline BSONObj OR(const BSONObj& a, const BSONObj& b, const BSONObj& c,
const BSONObj& d)
{ return BSON( "$or" << BSON_ARRAY(a << b << c << d) ); }
inline BSONObj OR(const BSONObj& a, const BSONObj& b, const BSONObj& c,
const BSONObj& d, const BSONObj& e)
{ return BSON( "$or" << BSON_ARRAY(a << b << c << d << e) ); }
inline BSONObj OR(const BSONObj& a, const BSONObj& b, const BSONObj& c,
const BSONObj& d, const BSONObj& e, const BSONObj& f)
{ return BSON( "$or" << BSON_ARRAY(a << b << c << d << e << f) ); }
}