Documentation ¶
Overview ¶
Package bson is an implementation of the BSON specification for Go:
http://bsonspec.org
It was created as part of the mgo MongoDB driver for Go, but is standalone and may be used on its own without the driver.
Index ¶
- Variables
- func IsObjectIdHex(s string) bool
- func Marshal(in interface{}) (out []byte, err error)
- func Now() time.Time
- func Unmarshal(in []byte, out interface{}) (err error)
- type Binary
- type D
- type DBPointer
- type DocElem
- type Getter
- type JavaScript
- type M
- type MongoTimestamp
- type ObjectId
- func (id ObjectId) Counter() int32
- func (id ObjectId) Hex() string
- func (id ObjectId) Machine() []byte
- func (id ObjectId) MarshalJSON() ([]byte, error)
- func (id ObjectId) MarshalText() ([]byte, error)
- func (id ObjectId) Pid() uint16
- func (id ObjectId) String() string
- func (id ObjectId) Time() time.Time
- func (id *ObjectId) UnmarshalJSON(data []byte) error
- func (id *ObjectId) UnmarshalText(data []byte) error
- func (id ObjectId) Valid() bool
- type Raw
- type RawD
- type RawDocElem
- type RegEx
- type Setter
- type Symbol
- type TypeError
Constants ¶
This section is empty.
Variables ¶
var MaxKey = orderKey(1<<63 - 1)
MaxKey is a special value that compares higher than all other possible BSON values in a MongoDB database.
var MinKey = orderKey(-1 << 63)
MinKey is a special value that compares lower than all other possible BSON values in a MongoDB database.
var SetZero = errors.New("set to zero")
SetZero may be returned from a SetBSON method to have the value set to its respective zero value. When used in pointer values, this will set the field to nil rather than to the pre-allocated value.
var Undefined undefined
Undefined represents the undefined BSON value.
Functions ¶
func IsObjectIdHex ¶
IsObjectIdHex returns whether s is a valid hex representation of an ObjectId. See the ObjectIdHex function.
func Marshal ¶
Marshal serializes the in value, which may be a map or a struct value. In the case of struct values, only exported fields will be serialized, and the order of serialized fields will match that of the struct itself. The lowercased field name is used as the key for each exported field, but this behavior may be changed using the respective field tag. The tag may also contain flags to tweak the marshalling behavior for the field. The tag formats accepted are:
"[<key>][,<flag1>[,<flag2>]]" `(...) bson:"[<key>][,<flag1>[,<flag2>]]" (...)`
The following flags are currently supported:
omitempty Only include the field if it's not set to the zero value for the type or to empty slices or maps. minsize Marshal an int64 value as an int32, if that's feasible while preserving the numeric value. inline Inline the field, which must be a struct or a map, causing all of its fields or keys to be processed as if they were part of the outer struct. For maps, keys must not conflict with the bson keys of other struct fields.
Some examples:
type T struct { A bool B int "myb" C string "myc,omitempty" D string `bson:",omitempty" json:"jsonkey"` E int64 ",minsize" F int64 "myf,omitempty,minsize" }
func Now ¶
Now returns the current time with millisecond precision. MongoDB stores timestamps with the same precision, so a Time returned from this method will not change after a roundtrip to the database. That's the only reason why this function exists. Using the time.Now function also works fine otherwise.
func Unmarshal ¶
Unmarshal deserializes data from in into the out value. The out value must be a map, a pointer to a struct, or a pointer to a bson.D value. In the case of struct values, only exported fields will be deserialized. The lowercased field name is used as the key for each exported field, but this behavior may be changed using the respective field tag. The tag may also contain flags to tweak the marshalling behavior for the field. The tag formats accepted are:
"[<key>][,<flag1>[,<flag2>]]" `(...) bson:"[<key>][,<flag1>[,<flag2>]]" (...)`
The following flags are currently supported during unmarshal (see the Marshal method for other flags):
inline Inline the field, which must be a struct or a map. Inlined structs are handled as if its fields were part of the outer struct. An inlined map causes keys that do not match any other struct field to be inserted in the map rather than being discarded as usual.
The target field or element types of out may not necessarily match the BSON values of the provided data. The following conversions are made automatically:
- Numeric types are converted if at least the integer part of the value would be preserved correctly
- Bools are converted to numeric types as 1 or 0
- Numeric types are converted to bools as true if not 0 or false otherwise
- Binary and string BSON data is converted to a string, array or byte slice
If the value would not fit the type and cannot be converted, it's silently skipped.
Pointer values are initialized when necessary.
Types ¶
type Binary ¶
Binary is a representation for non-standard binary values. Any kind should work, but the following are known as of this writing:
0x00 - Generic. This is decoded as []byte(data), not Binary{0x00, data}. 0x01 - Function (!?) 0x02 - Obsolete generic. 0x03 - UUID 0x05 - MD5 0x80 - User defined.
type D ¶
type D []DocElem
D represents a BSON document containing ordered elements. For example:
bson.D{{"a", 1}, {"b", true}}
In some situations, such as when creating indexes for MongoDB, the order in which the elements are defined is important. If the order is not important, using a map is generally more comfortable. See bson.M and bson.RawD.
type DBPointer ¶
DBPointer refers to a document id in a namespace.
This type is deprecated in the BSON specification and should not be used except for backwards compatibility with ancient applications.
type DocElem ¶
type DocElem struct { Name string Value interface{} }
DocElem is an element of the bson.D document representation.
type Getter ¶
type Getter interface {
GetBSON() (interface{}, error)
}
A value implementing the bson.Getter interface will have its GetBSON method called when the given value has to be marshalled, and the result of this method will be marshaled in place of the actual object.
If GetBSON returns return a non-nil error, the marshalling procedure will stop and error out with the provided value.
type JavaScript ¶
type JavaScript struct { Code string Scope interface{} }
JavaScript is a type that holds JavaScript code. If Scope is non-nil, it will be marshaled as a mapping from identifiers to values that may be used when evaluating the provided Code.
type M ¶
type M map[string]interface{}
M is a convenient alias for a map[string]interface{} map, useful for dealing with BSON in a native way. For instance:
bson.M{"a": 1, "b": true}
There's no special handling for this type in addition to what's done anyway for an equivalent map type. Elements in the map will be dumped in an undefined ordered. See also the bson.D type for an ordered alternative.
type MongoTimestamp ¶
type MongoTimestamp int64
MongoTimestamp is a special internal type used by MongoDB that for some strange reason has its own datatype defined in BSON.
type ObjectId ¶
type ObjectId string
ObjectId is a unique ID identifying a BSON value. It must be exactly 12 bytes long. MongoDB objects by default have such a property set in their "_id" property.
http://www.mongodb.org/display/DOCS/Object+IDs
func NewObjectIdWithTime ¶
NewObjectIdWithTime returns a dummy ObjectId with the timestamp part filled with the provided number of seconds from epoch UTC, and all other parts filled with zeroes. It's not safe to insert a document with an id generated by this method, it is useful only for queries to find documents with ids generated before or after the specified timestamp.
func ObjectIdHex ¶
ObjectIdHex returns an ObjectId from the provided hex representation. Calling this function with an invalid hex representation will cause a runtime panic. See the IsObjectIdHex function.
func (ObjectId) Counter ¶
Counter returns the incrementing value part of the id. It's a runtime error to call this method with an invalid id.
func (ObjectId) Machine ¶
Machine returns the 3-byte machine id part of the id. It's a runtime error to call this method with an invalid id.
func (ObjectId) MarshalJSON ¶
MarshalJSON turns a bson.ObjectId into a json.Marshaller.
func (ObjectId) MarshalText ¶
MarshalText turns bson.ObjectId into an encoding.TextMarshaler.
func (ObjectId) Pid ¶
Pid returns the process id part of the id. It's a runtime error to call this method with an invalid id.
func (ObjectId) String ¶
String returns a hex string representation of the id. Example: ObjectIdHex("4d88e15b60f486e428412dc9").
func (ObjectId) Time ¶
Time returns the timestamp part of the id. It's a runtime error to call this method with an invalid id.
func (*ObjectId) UnmarshalJSON ¶
UnmarshalJSON turns *bson.ObjectId into a json.Unmarshaller.
func (*ObjectId) UnmarshalText ¶
UnmarshalText turns *bson.ObjectId into an encoding.TextUnmarshaler.
type Raw ¶
The Raw type represents raw unprocessed BSON documents and elements. Kind is the kind of element as defined per the BSON specification, and Data is the raw unprocessed data for the respective element. Using this type it is possible to unmarshal or marshal values partially.
Relevant documentation:
http://bsonspec.org/#/specification
type RawD ¶
type RawD []RawDocElem
RawD represents a BSON document containing raw unprocessed elements. This low-level representation may be useful when lazily processing documents of uncertain content, or when manipulating the raw content documents in general.
type RegEx ¶
RegEx represents a regular expression. The Options field may contain individual characters defining the way in which the pattern should be applied, and must be sorted. Valid options as of this writing are 'i' for case insensitive matching, 'm' for multi-line matching, 'x' for verbose mode, 'l' to make \w, \W, and similar be locale-dependent, 's' for dot-all mode (a '.' matches everything), and 'u' to make \w, \W, and similar match unicode. The value of the Options parameter is not verified before being marshaled into the BSON format.
type Setter ¶
A value implementing the bson.Setter interface will receive the BSON value via the SetBSON method during unmarshaling, and the object itself will not be changed as usual.
If setting the value works, the method should return nil or alternatively bson.SetZero to set the respective field to its zero value (nil for pointer types). If SetBSON returns a value of type bson.TypeError, the BSON value will be omitted from a map or slice being decoded and the unmarshalling will continue. If it returns any other non-nil error, the unmarshalling procedure will stop and error out with the provided value.
This interface is generally useful in pointer receivers, since the method will want to change the receiver. A type field that implements the Setter interface doesn't have to be a pointer, though.
Unlike the usual behavior, unmarshalling onto a value that implements a Setter interface will NOT reset the value to its zero state. This allows the value to decide by itself how to be unmarshalled.
For example:
type MyString string func (s *MyString) SetBSON(raw bson.Raw) error { return raw.Unmarshal(s) }