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Grijjy.Bson.pas
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Grijjy.Bson.pas
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unit Grijjy.Bson;
(*< A light-weight and fast BSON and JSON object model, with support for
efficiently parsing and writing in JSON and BSON format.
The code in this unit is fully compatible with the BSON and JSON used by
MongoDB. It supports all JSON extensions used by MongoDB.
However, this unit does @bold(not) have any dependencies on the MongoDB units
and can be used as a stand-alone BSON/JSON library. It is therefore also
suitable as a general purpose JSON library.
@bold(Quick Start)
<source>
var
Doc: TgoBsonDocument;
A: TgoBsonArray;
Json: String;
Bson: TBytes;
begin
Doc := TgoBsonDocument.Create;
Doc.Add('Hello', 'World');
A := TgoBsonArray.Create(['awesome', 5.05, 1986]);
Doc.Add('BSON', A);
Json := Doc.ToJson; // Returns:
// { "hello" : "world",
// "BSON": ["awesone", 5.05, 1986] }
Bson := Doc.ToBson; // Saves to binary BSON
Doc := TgoBsonDocument.Parse('{ "Answer" : 42 }');
WriteLn(Doc['Answer']); // Outputs 42
Doc['Answer'] := 'Unknown';
Doc['Pi'] := 3.14;
WriteLn(Doc.ToJson); // Outputs { "Answer" : "Unknown", "Pi" : 3.14 }
end;
</source>
@bold(Object Model)
The root type in the BSON object model is TgoBsonValue. TgoBsonValue is a
record type which can hold any type of BSON value. Some implicit class
operators make it easy to assign basic types:
<source>
var
Value: TgoBsonValue;
begin
Value := True; // Creates a Boolean value
Value := 1; // Creates an Integer value
Value := 3.14; // Creates a Double value
Value := 'Foo'; // Creates a String value
Value := TBytes.Create(1, 2, 3); // Creates a binary (TBytes) value
Value := TgoObjectId.GenerateNewId; // Creates an ObjectId value
end;
</source>
Note that you can change the type later by assigning a value of another type.
You can also go the other way around:
<source>
var
Value: TgoBsonValue;
FloatVal: Double;
begin
Value := 3.14; // Creates a Double value
FloatVal := Value; // Uses implicit cast
FloatVal := Value.AsDouble; // Or more explicit cast
Value := 42; // Creates an Integer value
FloatVal := Value; // Converts an Integer BSON value to a Double
FloatVal := Value.AsDouble; // Raises exception because types don't match exactly
if (Value.BsonType = TgoBsonType.Double) then
FloatVal := Value.AsDouble; // Now it is safe to cast
// Or identical:
if (Value.IsDouble) then
FloatVal := Value.AsDouble;
end;
</source>
Note that the implicit operators will try to convert if the types don't match
exactly. For example, a BSON value containing an Integer value can be
implicitly converted to a Double. If the conversion fails, it returns a zero
value (or empty string).
The "As*" methods however will raise an exception if the types don't match
exactly. You should use these methods if you know that the type you request
matches the value's type exactly. These methods are a bit more efficient than
the implicit operators.
You can check the value type using the BsonType-property or one of the "Is*"
methods.
For non-basic types, there are value types that are "derived" from
TgoBsonValue:
* TgoBsonNull: the special "null" value
* TgoBsonArray: an array of other BSON values.
* TgoBsonDocument: a document containing key/value pairs, where the key is a
string and the value can be any BSON value. This is usually the main
starting point in Mongo, since all database "records" are represented as
BSON documents in Mongo. A document is similar to a dictionary in many
programming languages, or the "object" type in JSON.
* TgoBsonBinaryData: arbitrary binary data. Is also used to store GUID's (but
not ObjectId's).
* TgoBsonDateTime: a date/time value with support for conversion to and from
UTC (Universal) time. Is always stored in UTC format (as the number of UTC
milliseconds since the Unix epoch).
* TgoBsonRegularExpression: a regular expression with options.
* TgoBsonJavaScript: a piece of JavaScript code.
* TgoBsonJavaScriptWithScope: a piece of JavaScript code with a scope (a set
of variables with values, as defined in another document).
* TgoBsonTimestamp: special internal type used by MongoDB replication and
sharding.
* TgoBsonMaxKey: special type which compares higher than all other possible
BSON element values.
* TgoBsonMinKey: special type which compares lower than all other possible
BSON element values.
* TgoBsonUndefined: an undefined value (deprecated by BSON)
* TgoBsonSymbol: a symbol from a lookup table (deprecated by BSON)
Note that these are not "real" derived types, since they are implemented as
Delphi records (which do not support inheritance). But the implicit operators
make it possible to treat each of these types as a TgoBsonValue. For example
<source>
var
MyArray: TgoBsonArray;
Value: TgoBsonValue;
begin
MyArray := TgoBsonArray.Create([1, 3.14, 'Foo', False]);
Value := MyArray; // "subtypes" are compatible with TgoBsonValue
// Or shorter:
Value := TgoBsonArray.Create([1, 3.14, 'Foo', False]);
end;
</source>
@Bold(Arrays)
The example above also shows that arrays can be created very easily. An array
contains a collection of BSON values of any type. Since BSON values can be
implicitly created from basic types, you can pass multiple types in the
array constructor. In the example above, 4 BSON values will be added to the
array of types Integer, Double, String and Boolean.
You can also add items using the Add or AddRange methods:
<source>
MyArray := TgoBsonArray.Create;
MyArray.Add(1);
MyArray.Add(3.14);
MyArray.Add('Foo');
</source>
Some methods return the array (or document) itself, so they can be used for
chaining (aka as a "fluent interface"). The example above is equivalent to:
<source>
MyArray := TgoBsonArray.Create;
MyArray.Add(1).Add(3.14).Add('Foo');
</source>
You can change values (and types) like this:
<source>
// Changes entry 1 from Double to Boolean
MyArray[1] := True;
</source>
@Bold(Documents)
Documents (or dictionaries) can also be created easily:
<source>
var
Doc: TgoBsonDocument;
begin
Doc := TgoBsonDocument.Create('Answer', 42);
end;
</source>
This creates a document with a single entry called 'Answer' with a value of
42. Keep in mind that the value can be any BSON type:
<source>
Doc := TgoBsonDocument.Create('Answer', TgoBsonArray.Create([42, False]));
</source>
You can Add, Remove and Delete (Adds can be fluent):
<source>
Doc := TgoBsonDocument.Create;
Doc.Add('Answer', 42);
Doc.Add('Pi', 3.14).Add('Pie', 'Yummi');
// Deletes second item (Pi):
Doc.Delete(1);
// Removes first item (Answer):
Doc.Remove('Answer');
</source>
Like Delphi dictionaries, the Add method will raise an exception if an item
with the given name already exists. Unlike Delphi dictionaries however, you
can easily set an item using its default accessor:
<source>
// Adds Answer:
Doc['Answer'] := 42;
// Adds Pi:
Doc['Pi'] := 3.14;
// Updates Answer:
Doc['Answer'] := 'Everything';
</source>
This adds the item if it does not yet exists, or replaces it otherwise (there
is no (need for an) AddOrSet method).
Also unlike Delphi dictionaries, documents maintain insertion order and you
can also access the items by index:
<source>
// Returns item by name:
V := Doc['Pi'];
// Returns item by index:
V := Doc.Values[1];
</source>
Documents can be easily parsed from JSON:
<source>
Doc := TgoBsonDocument.Parse('{ "Answer" : 42 }');
</source>
The parser understands standard JSON as well as the MongoDB JSON extensions.
You can also load a document from a BSON byte array:
<source>
Bytes := LoadSomeBSONData();
Doc := TgoBsonDocument.Load(Bytes);
</source>
These methods will raise exceptions if the JSON or BSON data is invalid.
@bold(Memory Management)
All memory management in this library is automatic. You never need to (and you
never must) destroy any objects yourself.
The object model types (TgoBsonValue and friends) are all Delphi records. The
actual implementations of these records use interfaces to manage memory.
There is no concept of ownership in the object model. An array does @bold(not)
own its elements and a document does @bold(not) own its elements. So you are
free to add the same value to multiple arrays and/or documents without
ownership concerns:
<source>
var
Array1, Array2, SubArray, Doc1, Doc2: TgoBsonValue;
begin
SubArray := TgoBsonArray.Create([42, 'Foo', True]);
Array1 := TgoBsonArray.Create;
Array2 := TgoBsonArray.Create([123, 'Abc']);
Doc1 := TgoBsonDocument.Create;
Doc2 := TgoBsonDocument.Create('Pi', 3.14);
Array1.Add(SubArray);
Array2.Add(SubArray); // Add same value to other container
Doc1.Add('Bar', SubArray); // And again
Doc2.Add('Baz', SubArray); // And again
end;
</source>
Non-object model types are defined as interfaces, so their memory is managed
automatically as well. For example JSON/BSON readers and writer are
interfaces:
<source>
var
Reader: IgoJsonReader;
Value: TgoBsonValue;
begin
Reader := TgoJsonReader.Create('{ "Pi" : 3.14 }');
Value := Reader.ReadValue;
Assert(Value.IsDocument);
Assert(Value.AsDocument['Pi'] = 3.14);
end;
</source>
Just keep in mind that you must always declare your variable (Reader) as an
interface type (IgoJsonReader), but you construct it using the class type
(TgoJsonReader).
@bold(JSON and BSON reading and writing)
For easy storing, all BSON values have methods called ToJson and ToBson to
store its value into JSON or BSON format:
<source>
var
A: TgoBsonValue;
B: TBytes;
begin
A := 42;
WriteLn(A.ToJson); // Outputs '42'
A := 'Foo';
WriteLn(A.ToJson); // Outputs '"Foo"'
A := TgoBsonArray.Create([1, 'Foo', True]);
WriteLn(A.ToJson); // Outputs '[1, "Foo", true]'
A := TgoBsonDocument.Create('Pi', 3.14);
WriteLn(A.ToJson); // Outputs '{ "Pi" : 3.14 }'
B := A.ToBson; // Outputs document in BSON format
end;
</source>
When outputting to JSON, you can optionally supply a settings record to
customize the output:
* Whether to pretty-print the output
* What strings to use for indentation and line breaks
* Whether to output standard JSON or use the MongoDB shell syntax extension
If you don's supply any settings, then output will be in Strict JSON format
without pretty printing.
Easy loading is only supported at the Value, Document and Array level, using
the Parse and Load methods:
<source>
var
Doc: TgoBsonDocument;
Bytes: TBytes;
begin
Doc := TgoBsonDocument.Parse('{ "Pi" : 3.14 }');
Bytes := LoadSomeBSONData();
Doc := TgoBsonDocument.Load(Bytes);
end;
</source>
You can load other types using the IgoJsonReader and IgoBsonReader
interfaces:
<source>
var
Reader: IgoBsonReader;
Value: TgoBsonValue;
Bytes: TBytes;
begin
Bytes := LoadSomeBSONData();
Reader := TgoBsonReader.Create(Bytes);
Value := Reader.ReadValue;
end;
</source>
The JSON reader and writer supports both the "strict" JSON syntax, as well as
the "Mongo Shell" syntax (see https://docs.mongodb.org/manual/reference/mongodb-extended-json/).
Extended JSON is supported for both reading and writing. This library supports
all the current extensions, as well as some deprecated legacy extensions.
The JSON reader accepts both key names with double quotes (as per JSON spec)
as without quotes.
@bold(Manual reading and writing)
For all situations, the methods ToJson, ToBson, Parse and Load can take care
of reading and writing any kind of JSON and BSON data.
However, you can use the reading and writing interfaces directly if you want
for some reason. One reason may be that you want the fastest performance when
creating BSON payloads, without the overhead of creating a document object
model in memory.
For information, see the unit Grijjy.Data.Bson.IO
@bold(Serialization)
For even easier reading and writing, you can use serialization to directory
store a Delphi record or object in JSON or BSON format (or convert it to a
TgoBsonDocument).
For information, see the unit Grijjy.Data.Bson.Serialization *)
{$INCLUDE 'Grijjy.inc'}
interface
uses
System.Classes,
System.SysUtils,
System.SyncObjs,
System.Generics.Collections;
type
{ Supported BSON types. As returned by TgoBsonValue.BsonType.
Tech note: Ordinal values must match BSON spec (http://bsonspec.org) }
TgoBsonType = (
{ Not a real BSON type. Used to signal the end of a document. }
EndOfDocument = $00,
{ A BSON double }
Double = $01,
{ A BSON string }
&String = $02,
{ A BSON document (see TgoBsonDocument) }
Document = $03,
{ A BSON array (see TgoBsonArray) }
&Array = $04,
{ BSON binary data (see TgoBsonBinaryData) }
Binary = $05,
{ A BSON undefined value (see TgoBsonUndefined) }
Undefined = $06,
{ A ObjectId, generally used with MongoDB (see TgoObjectId) }
ObjectId = $07,
{ A BSON boolean }
Boolean = $08,
{ A BSON DateTime (see TgoBsonDateTime) }
DateTime = $09,
{ A BSON null value (see TgoBsonNull) }
Null = $0A,
{ A BSON regular expression (see TgoBsonRegularExpression) }
RegularExpression = $0B,
{ BSON JavaScript code (see TgoBsonJavaScript) }
JavaScript = $0D,
{ A BSON Symbol (see TgoBsonSymbol, deprecated) }
Symbol = $0E,
{ BSON JavaScript code with a scope (see TgoBsonJavaScriptWithScope) }
JavaScriptWithScope = $0F,
{ A BSON 32-bit integer }
Int32 = $10,
{ A BSON Timestamp (see TgoBsonTimestamp) }
Timestamp = $11,
{ A BSON 64-bit integer }
Int64 = $12,
{ A BSON MaxKey value (see TgoBsonMaxKey) }
MaxKey = $7F,
{ A BSON MinKey value (see TgoBsonMinKey) }
MinKey = $FF);
type
{ Supported BSON binary sub types.
As returned by TgoBsonBinaryData.SubType.
Tech note: Ordinal values must match BSON spec (http://bsonspec.org) }
TgoBsonBinarySubType = (
{ Binary data in an arbitrary format }
Binary = $00,
{ A function }
&Function = $01,
{ Obsolete binary type }
OldBinary = $02,
{ A UUID/GUID in driver dependent legacy byte order }
UuidLegacy = $03,
{ A UUID/GUID in standard network byte order (big endian) }
UuidStandard = $04,
{ A MD5 hash }
MD5 = $05,
{ User defined type }
UserDefined = $80);
type
{ The output mode of a IgoJsonWriter, as set using TgoJsonWriterSettings. }
TgoJsonOutputMode = (
{ Outputs strict JSON }
Strict,
{ Outputs a format that can be used by the MongoDB shell }
Shell);
type
{ Settings for a IgoJsonWriter }
TgoJsonWriterSettings = record
{$REGION 'Internal Declarations'}
private class var
FDefault: TgoJsonWriterSettings;
FShell: TgoJsonWriterSettings;
FPretty: TgoJsonWriterSettings;
private
FPrettyPrint: Boolean;
FIndent: String;
FLineBreak: String;
FOutputMode: TgoJsonOutputMode;
public
{ @exclude }
class constructor Create;
{$ENDREGION 'Internal Declarations'}
public
{ Creates a settings record using the default settings:
* PrettyPrint: False
* OutputMode: Strict
* Indent: 2 spaces (not used unless PrettyPrint is set to True later)
* LineBreak: CR+LF (not used unless PrettyPrint is set to True later)
Returns:
The settings }
class function Create: TgoJsonWriterSettings; overload; static;
{ Creates a settings record:
Parameters:
APrettyPrint: whether to use indentation (see Indent) and line breaks
(see LineBreak).
AOutputMode: (optional) output mode. Defaults to Strict.
Returns:
The settings }
class function Create(const APrettyPrint: Boolean;
const AOutputMode: TgoJsonOutputMode = TgoJsonOutputMode.Strict): TgoJsonWriterSettings; overload; static;
{ Creates a settings record:
Parameters:
AIndent: the string to use for indentation. Should only contain
whitespace characters to create valid output.
ALineBreak: the string to use for line breaks. Should only contain
whitespace characters to create valid output.
AOutputMode: (optional) output mode. Defaults to Strict.
Returns:
The settings.
@bold(Note): this constructor sets PrettyPrint to True. }
class function Create(const AIndent, ALineBreak: String;
const AOutputMode: TgoJsonOutputMode = TgoJsonOutputMode.Strict): TgoJsonWriterSettings; overload; static;
{ Creates a settings record:
Parameters:
AOutputMode: output mode to use.
Returns:
The settings
@bold(Note): this constructor sets PrettyPrint to False. }
class function Create(const AOutputMode: TgoJsonOutputMode): TgoJsonWriterSettings; overload; static;
{ The default settings:
* PrettyPrint: False
* OutputMode: Strict
* Indent: 2 spaces (not used unless PrettyPrint is set to True later)
* LineBreak: CR+LF (not used unless PrettyPrint is set to True later) }
class property Default: TgoJsonWriterSettings read FDefault;
{ "Shell" settings for outputing JSON with MongoDB shell extensions.
* PrettyPrint: False
* OutputMode: Shell
* Indent: 2 spaces (not used unless PrettyPrint is set to True later)
* LineBreak: CR+LF (not used unless PrettyPrint is set to True later) }
class property Shell: TgoJsonWriterSettings read FShell;
{ Settings for outputing JSON compliant JSON in a pretty format.
* PrettyPrint: True
* OutputMode: Strict
* Indent: 2 spaces
* LineBreak: CR+LF }
class property Pretty: TgoJsonWriterSettings read FPretty;
{ Whether to use indentation (see Indent) and line breaks (see LineBreak).
Default False. }
property PrettyPrint: Boolean read FPrettyPrint write FPrettyPrint;
{ String to use for indentation. Should only contain whitespace characters
to create valid output. Not used unless PrettyPrint is True.
Defaults to 2 spaces }
property Indent: String read FIndent write FIndent;
{ String to use for line breaks. Should only contain whitespace characters
to create valid output. Not used unless PrettyPrint is True.
Defaults to CR+LF }
property LineBreak: String read FLineBreak write FLineBreak;
{ Output mode to use.
Defaults to Strict }
property OutputMode: TgoJsonOutputMode read FOutputMode write FOutputMode;
end;
type
{ Represents an ObjectId. This is a 12-byte (96-bit) value that is regularly
used for (unique) primary keys in MongoDB databases.
Internally, an ObjectId is composed of:
* A 4-byte value containing the number of seconds since the Unix epoch.
* A 3-byte machine identifier
* A 2-byte process identifier
* A 3-byte counter, starting from a random value
This makes ObjectId's fairly unique (but not as unique as GUID's though) }
TgoObjectId = record
{$REGION 'Internal Declarations'}
private class var
FIncrement: Integer;
FMachine: Integer;
FPid: UInt16;
FInitialized: Boolean;
private
function GetIsEmpty: Boolean;
function GetTimestamp: Integer;
function GetMachine: Integer;
function GetPid: UInt16;
function GetIncrement: Integer;
function GetCreationTime: TDateTime;
private
class procedure Initialize; static;
class function GetTimestampFromDateTime(const ATimestamp: TDateTime;
const ATimestampIsUTC: Boolean): Integer; static;
private
procedure FromByteArray(const ABytes: TBytes);
public
{ @exclude }
class constructor Create;
{$ENDREGION 'Internal Declarations'}
public
{ Creates an ObjectId from a byte array.
Parameters:
ABytes: the array of bytes to use for the ObjectId.
Must be 12 bytes long.
Returns:
The ObjectId.
Raises:
EArgumentException if ABytes is not 12 bytes long }
class function Create(const ABytes: TBytes): TgoObjectId; overload; static;
{ Creates an ObjectId from a byte array.
Parameters:
ABytes: the array of bytes to use for the ObjectId.
Must be 12 bytes long.
Returns:
The ObjectId.
Raises:
EArgumentException if ABytes is not 12 bytes long }
class function Create(const ABytes: array of Byte): TgoObjectId; overload; static;
{ Creates an ObjectId from its components.
Parameters:
ATimestamp: 32-bit number of seconds since Unix epoch.
AMachine: 24-bit machine identifier. Must be >= 0 and < $01000000.
APid: 16-bit process identifier.
AIncrement: 24-bit counter. Must be >= 0 and < $01000000.
Returns:
The ObjectId.
Raises:
EArgumentOutOfRangeException if AMachine or AIncrement are out of range. }
class function Create(const ATimestamp, AMachine: Integer; const APid: UInt16;
const AIncrement: Integer): TgoObjectId; overload; static;
{ Creates an ObjectId from its components.
Parameters:
ATimestamp: the date/time to use as a timestamp.
ATimestampIsUTC: whether ATimestamp is in universal time.
AMachine: 24-bit machine identifier. Must be >= 0 and < $01000000.
APid: 16-bit process identifier.
AIncrement: 24-bit counter. Must be >= 0 and < $01000000.
Returns:
The ObjectId.
Raises:
EArgumentOutOfRangeException if AMachine or AIncrement are out of range. }
class function Create(const ATimestamp: TDateTime;
const ATimestampIsUTC: Boolean; const AMachine: Integer;
const APid: UInt16; const AIncrement: Integer): TgoObjectId; overload; static;
{ Creates an ObjectId from its string representation (see ToString).
Parameters:
AString: the string representation of the ObjectId. Must contain 24
hex digits.
Returns:
The ObjectId.
Raises:
EArgumentException if AString does not contain 24 hex digits.
@bold(Note): this constructor is equal to the Parse method. }
class function Create(const AString: String): TgoObjectId; overload; static;
{ Generates a new ObjectId using the current timestamp, machine, process
and counter settings.
Returns:
The newly generated ObjectId.
@bold(Note): the returned ObjectId is guaranteed to be unique on the
current system, even if this function is called at the same time from
the same or other processes on the machine. However, the ObjectId is not
neccesarily globally unique since another machine with the same hostname
or computer name can theoretically generate the same Id. }
class function GenerateNewId: TgoObjectId; overload; static;
{ Generates a new ObjectId using a given timestamp and the current machine,
process and counter settings.
Parameters:
ATimestamp: the date/time to use as a timestamp.
ATimestampIsUTC: whether ATimestamp is in universal time.
Returns:
The newly generated ObjectId.
@bold(Note): the returned ObjectId is guaranteed to be unique on the
current system, even if this function is called at the same time from
the same or other processes on the machine. However, the ObjectId is not
neccesarily globally unique since another machine with the same hostname
or computer name can theoretically generate the same Id. }
class function GenerateNewId(const ATimestamp: TDateTime;
const ATimestampIsUTC: Boolean): TgoObjectId; overload; static;
{ Generates a new ObjectId using a given timestamp and the current machine,
process and counter settings.
Parameters:
ATimestamp: 32-bit number of seconds since Unix epoch.
Returns:
The newly generated ObjectId.
@bold(Note): the returned ObjectId is guaranteed to be unique on the
current system, even if this function is called at the same time from
the same or other processes on the machine. However, the ObjectId is not
neccesarily globally unique since another machine with the same hostname
or computer name can theoretically generate the same Id. }
class function GenerateNewId(const ATimestamp: Integer): TgoObjectId; overload; static;
{ Parses an ObjectId from its string representation (see ToString).
Parameters:
AString: the string representation of the ObjectId. Must contain 24
hex digits.
Returns:
The ObjectId.
Raises:
EArgumentException if AString does not contain 24 hex digits }
class function Parse(const AString: String): TgoObjectId; overload; static;
{ Tries to parse an ObjectId from its string representation (see ToString).
Parameters:
AString: the string representation of the ObjectId. Must contain 24
hex digits.
AObjectId: is set to the parsed ObjectId, or all zeros if AString could
not be parsed.
Returns:
True if AString could be successfully parsed. }
class function TryParse(const AString: String;
out AObjectId: TgoObjectId): Boolean; overload; static;
{ Returns an empty ObjectId (with all zeros)
Returns:
The empty ObjectId. }
class function Empty: TgoObjectId; static;
{ Implicitly converts a string to an ObjectId. The string @bold(must)
contain 24 hex digits. An EArgumentException will be raised if this is not
the case }
class operator Implicit(const A: String): TgoObjectId;
{ Implicitly convers an ObjectId to a string }
class operator Implicit(const A: TgoObjectId): String;
{ Tests 2 ObjectId's for equality }
class operator Equal(const A, B: TgoObjectId): Boolean; static;
{ Tests 2 ObjectId's for inequality }
class operator NotEqual(const A, B: TgoObjectId): Boolean; static;
{ Compares 2 ObjectId's using the ">" operator }
class operator GreaterThan(const A, B: TgoObjectId): Boolean; static;
{ Compares 2 ObjectId's using the ">=" operator }
class operator GreaterThanOrEqual(const A, B: TgoObjectId): Boolean; static;
{ Compares 2 ObjectId's using the "<" operator }
class operator LessThan(const A, B: TgoObjectId): Boolean; static;
{ Compares 2 ObjectId's using the "<=" operator }
class operator LessThanOrEqual(const A, B: TgoObjectId): Boolean; static;
{ Converts the ObjectId to an array of 12 bytes.
Returns:
The ObjectId as 12 bytes. }
function ToByteArray: TBytes; overload;
{ Converts the ObjectId to an array of bytes.
Parameters:
ADestination: byte array to store the ObjectId into.
AOffset: starting offset in ADestination to use.
Raises:
EArgumentException if ADestination does not have room enough to store
(AOffset+12) bytes. }
procedure ToByteArray(const ADestination: TBytes; const AOffset: Integer); overload;
{ Converts the ObjectId to its string representation. This is a string
containing 24 hex digits.
Returns:
The string representation of the ObjectId. }
function ToString: String;
{ Compare this ObjectId to another one.
Parameters:
AOther: the other ObjectId.
Returns:
* -1 if Self < AOther
* 0 if Self = AOther
* 1 if Self > AOther }
function CompareTo(const AOther: TgoObjectId): Integer;
{ Returns True if this ObjectId is empty (all zeros) }
property IsEmpty: Boolean read GetIsEmpty;
{ Timestamp component of the ObjectId.
If the 32-bit number of seconds since Unix epoch. }
property Timestamp: Integer read GetTimestamp;
{ Machine component of the ObjectId.
Is a 24-bit machine identifier. }
property Machine: Integer read GetMachine;
{ Process component of the ObjectId.
Is a 16-bit process identifier. }
property Pid: UInt16 read GetPid;
{ Counter component of the ObjectId.
Is a 32-bit increment. }
property Increment: Integer read GetIncrement;
{ The creation time of the ObjectId, as stored inside its Timestamp
component. The time is in UTC. }
property CreationTime: TDateTime read GetCreationTime;
{$REGION 'Internal Declarations'}
private
case Byte of
0: (FData: array [0..2] of UInt32);
1: (FBytes: array [0..11] of Byte);
{$ENDREGION 'Internal Declarations'}
end;
PgoObjectId = ^TgoObjectId;
type
{ The base "class" for all BSON values. It is implemented as a record type
which can hold any type of BSON value. }
TgoBsonValue = record
{$REGION 'Internal Declarations'}
public type
{ @exclude }
_IValue = interface
['{290B24D7-1D64-4F76-93C8-1B9D92658018}']
function GetBsonType: TgoBsonType;
function AsBoolean: Boolean;
function AsInteger: Integer;
function AsInt64: Int64;
function AsDouble: Double;
function AsString: String;
function AsArray: TArray<TgoBsonValue>;
function AsByteArray: TBytes;
function AsGuid: TGUID;
function AsObjectId: TgoObjectId;
function ToBoolean(const ADefault: Boolean): Boolean;
function ToDouble(const ADefault: Double): Double;
function ToInteger(const ADefault: Integer): Integer;
function ToInt64(const ADefault: Int64): Int64;
function ToString(const ADefault: String): String;
function ToLocalTime: TDateTime;
function ToUniversalTime: TDateTime;
function ToByteArray: TBytes;
function ToGuid: TGUID;
function ToObjectId: TgoObjectId;
function Equals(const AOther: _IValue): Boolean;
function Clone: _IValue;
function DeepClone: _IValue;
property BsonType: TgoBsonType read GetBsonType;
end;
private
FImpl: _IValue;
function GetBsonType: TgoBsonType; inline;
function GetIsBoolean: Boolean; inline;
function GetIsBsonArray: Boolean; inline;
function GetIsBsonBinaryData: Boolean; inline;
function GetIsBsonDateTime: Boolean; inline;
function GetIsBsonDocument: Boolean; inline;
function GetIsBsonJavaScript: Boolean; inline;
function GetIsBsonJavaScriptWithScope: Boolean; inline;
function GetIsBsonMaxKey: Boolean; inline;
function GetIsBsonMinKey: Boolean; inline;
function GetIsBsonNull: Boolean; inline;
function GetIsBsonRegularExpression: Boolean; inline;
function GetIsBsonSymbol: Boolean; inline;
function GetIsBsonTimestamp: Boolean; inline;
function GetIsBsonUndefined: Boolean; inline;
function GetIsDateTime: Boolean; inline;
function GetIsDouble: Boolean; inline;
function GetIsGuid: Boolean; inline;
function GetIsInt32: Boolean; inline;
function GetIsInt64: Boolean; inline;
function GetIsNumeric: Boolean; inline;
function GetIsObjectId: Boolean; inline;
function GetIsString: Boolean; inline;
public
{ @exclude }
class operator Implicit(const A: TgoBsonValue): Int8; static;
{ @exclude }
class operator Implicit(const A: TgoBsonValue): UInt8; static;
{ @exclude }
class operator Implicit(const A: TgoBsonValue): Int16; static;
{ @exclude }
class operator Implicit(const A: TgoBsonValue): UInt16; static;
{ @exclude }
class operator Implicit(const A: TgoBsonValue): UInt32; static;
{ @exclude }
class operator Implicit(const A: TgoBsonValue): Single; static;
{ @exclude }
class operator Implicit(const A: UInt32): TgoBsonValue; static;
{ @exclude }
class operator Implicit(const A: UInt64): TgoBsonValue; static;
{ @exclude }
class operator Implicit(const A: Single): TgoBsonValue; static;
{ @exclude }
property _Impl: _IValue read FImpl write FImpl;
{$ENDREGION 'Internal Declarations'}
public
{ Creates a BSON value by paring a JSON string.
Parameters:
AJson: the JSON string to parse.
Returns:
The BSON value
Raises:
EgoJsonParserError or EInvalidOperation on parse errors }
class function Parse(const AJson: String): TgoBsonValue; static;
{ Tries to parse a JSON string to a BSON value.
Parameters:
AJson: the JSON string to parse.
AArray: is set to the parsed JSON on success.
Returns:
True if the JSON string could be successfully parsed. }
class function TryParse(const AJson: String; out AValue: TgoBsonValue): Boolean; static;
{ Creates a BSON value from a BSON byte array.