bytejson

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Published: Feb 2, 2024 License: Apache-2.0 Imports: 12 Imported by: 0

README

JSON Types Overview

MatrixOne JSON types conforms with MySQL JSON types definition.

Reference: https://dev.mysql.com/doc/refman/8.0/en/json.html

JSON Binary Format

Reference: https://dev.mysql.com/doc/dev/mysql-server/8.0.28/json__binary_8h.html

Description

JSON binary format is a binary format for storing JSON data.

Detail
JSON doc ::= type value
   type ::=
       0x01 |       // object
       0x03 |       // array
       0x04 |       // literal (true/false/null)
       0x09 |       // int64
       0x0a |       // uint64
       0x0b |       // float64
       0x0c |       // string

   value ::=
       object  |
       array   |
       literal |
       number  |
       string  |

   object ::= element-count size key-entry* value-entry* key* value*

   array ::= element-count size value-entry* value*

   // number of members in object or number of elements in array
   element-count ::= uint32

   // number of bytes in the binary representation of the object or array
   size ::= uint32

   key-entry ::= key-offset key-length

   key-offset ::= uint32

   key-length ::= uint16    // key length must be less than 64KB

   value-entry ::= type offset-or-inlined-value

   // This field holds either the offset to where the value is stored,
   // or the value itself if it is small enough to be inlined (that is,
   // if it is a JSON literal)
   offset-or-inlined-value ::= uint32

   key ::= utf8-data

   literal ::=
       0x00 |   // JSON null literal
       0x01 |   // JSON true literal
       0x02 |   // JSON false literal

   number ::=  ....    // little-endian format for [u]int64 and float64

   string ::= data-length utf8-data

   data-length ::= uint8*    // Variable size encoding, if the high bit of a byte is 1, the length
                             // field is continued in the next byte,
                             // otherwise it is the last byte of the length
                             // field. So we need 1 byte to represent
                             // lengths up to 127, 2 bytes to represent
                             // lengths up to 16383, and so on...
Implementations
  1. All the values are wrapped in a JSON doc. A JSON doc consists of a type and a value. The type field is a single byte that indicates the type of the value. The value field is a binary representation of the value.
  2. The value of object type is stored as a sequence of element-count, size, key-entry list, value-entry list, key list and value list, where element-count is the number of members in the object, size is the number of bytes in the binary. The key-entry consists of key-offset and key-length, key-offset is the offset to the key in the key list, and key-length is the length of the key. The value-entry consists of type and offset-or-inlined-value, type is the type of the value, offset-or-inlined-value is the offset to the value in the value list or the value itself if it is small enough to be inlined. The key is a string and the value is a binary representation of the value type described above.
  3. The value of array type is stored as a sequence of element-count, size, value-entry list, value list, where element-count is the number of elements in the array, size is the number of bytes in the binary. The value-entry consists of type and offset-or-inlined-value, type is the type of the value, offset-or-inlined-value is the offset to the value in the value list or the value itself if it is small enough to be inlined. The value is a binary representation of the value type described above.
  4. The value of literal type is stored as a single byte that indicates the literal type.
  5. The value of number type is stored as a binary representation of the number whose format is little-endian.
  6. The value of string type is stored as a sequence of data-length and utf8-data, data-length which is stored as a variable size encoding is the length of the utf8-data, utf8-data is the utf8-encoded string.
Example
drop table if exists t;
create table t
(
    a json,
    b int
);

insert into t(a, b)
values ('{"a": [1, "2", {"aa": "bb"}]}', 1),
       ('[1, 2, 3]', 2),
       ('null', 3),
       ('true', 4),
       ('false', 5),
       ('1', 6),
       ('1.1', 7),
       ('"a"', 8);

select *
from t;
+-------------------------------------+---+
| a                                   | b |
+-------------------------------------+---+
| {"a": [1, "2", {"aa": "bb"}]}       | 1 |
| [1, 2, 3]                           | 2 |
| null                                | 3 |
| true                                | 4 |
| false                               | 5 |
| 1                                   | 6 |
| 1.1                                 | 7 |
| "a"                                 | 8 |
+-------------------------------------+---+

delete
from t
where b = 3;

update t
set a = '{"a": 1}'
where b = 1;

select *
from t;
+-------------------------------------+---+
| a                                   | b |
+-------------------------------------+---+
| {"a": 1}                            | 1 |
| [1, 2, 3]                           | 2 |
| true                                | 4 |
| false                               | 5 |
| 1                                   | 6 |
| 1.1                                 | 7 |
| "a"                                 | 8 |

JSON Path Syntax

Reference: https://dev.mysql.com/doc/refman/8.0/en/json.html#json-path-syntax

Description

JSON Path is a path expression that can be used to access a value in a JSON document.

Detail
pathExpression:
    scope[(pathLeg)*]

pathLeg:
    member | arrayLocation | arrayRange | doubleAsterisk

member:
    period ( keyName | asterisk )

arrayLocation:
    leftBracket ( nonNegativeInteger | asterisk ) rightBracket

arrayRange:
    leftBracket (nonNegativeInteger| lastExpression) colon (nonNegativeInteger| lastExpression) rightBracket
    
lastExpression:
    lastToken substract nonNegativeInteger

keyName:
    ESIdentifier | doubleQuotedString

doubleAsterisk:
    '**'

period:
    '.'

asterisk:
    '*'

leftBracket:
    '['

rightBracket:
    ']'
    
colon:
    'to'
    
lastToken:
    'last'
    
substract:
    '-'

In MatrixOne, the scope of the path is always the document being operated on, represented as $. You can use '$' as a synonym for the document in JSON path expressions.

Notes
  1. The path expression must start with $.
  2. The array location is a left bracket followed by a non-negative integer or an asterisk, followed by a right bracket, if user gives a negative number, it will return an error.
  3. The key name is an identifier or a double-quoted string.
  4. prefix**suffix represents all paths beginning with prefix and ending with suffix. prefix is optional, while suffix is required; in other words, a path may not end in **.
Examples
$ -> represents the whole document
$[0] -> represents second element of the array document
$.* -> represents all values of the object document
$.store -> represents the store object
$.store.* -> represents all values of the store object
$.store.book[0] -> represents the first book element in the store object
$**.a -> represents values of the document keys which ends with 'a', such as 'a', 'b.a', 'c.b.a', etc.
$.a**.b -> represents values of the document keys which starts with 'a' and ends with 'b', such as 'a.b', 'a.x.b', 'a.x.y.b', etc.
$[last] -> represents the last element of the array document
$[last-1] -> represents the second last element of the array document
$[0 to 2] -> represents the first three elements of the array document
$[0 to last-1] -> represents all elements of the array document except the last one
$[0 to last-2] -> represents all elements of the array document except the last two
$[last - 5 to last] -> represents the last five elements of the array document

JSON EXTREACT

Description

json_extract is a JSON query function that can be used to query JSON documents.

Syntax
select json_extract(jsonDoc, pathExpression);

jsonDoc is the JSON document to be queried,which can be a JSON text string or a JSON column in a table.

Implementation
  1. The implementation is based on the JSONPath syntax.
  2. If the path expression is not valid, return an error.
  3. If the path expression is valid, return the value of the path expression. Rules for query:
    1. If the path expression is empty, return the query result.
    2. Use restPath to represent the current path expression without the front path leg.
    3. If the front leg is a member, query the value of the member if current doc is an object, or return null if current doc is an array.
    4. If the front leg is an array location, query the value of the array location if current doc is an array, or return null if current doc is an object.
    5. If the front leg is a double asterisk:
      1. First, use the restPath expression to query the value of the current doc.
      2. Second, use the current path expression to query the value of each sub doc in the current doc.
      3. Return the union of the two results.
    6. If the front leg is an asterisk, use the rest path expression to query the value of each sub doc in the current doc, and return the union of the results.
    7. If the result is not a single value, return the result as a JSON array.
  4. see matrixone.pkg.container.bytejson.Query for more details.
Examples
select json_extract('[1,2,3]', '$[*]');
+-----------------------+
| json_extract('[1,2,3]', '$[*]') |
+-----------------------+
| [1,2,3]               |
+-----------------------+

select json_extract('[1,2,3]', '$[0]');
+------------------+
| json_extract([1,2,3],$[0]) |
+------------------+
| 1                |
+------------------+

select json_extract('{"a":1,"b":2,"c":3}', '$.*');
+-----------------------------+
| json_extract({"a":1,"b":2,"c":3},$.*) |
+-----------------------------+
| [1, 2, 3]                   |
+-----------------------------+

select json_extract('{"a":1,"b":2,"c":3}', '$.a');
+-----------------------------+
| json_extract({"a":1,"b":2,"c":3},$.a) |
+-----------------------------+
| 1                           |
+-----------------------------+

select json_extract('{"a":1,"b":2,"c":3,"d":{"a":"x"}}', '$**.a');
+---------------------------------------------+
| json_extract({"a":1,"b":2,"c":3,"d":{"a":"x"}},$**.a) |
+---------------------------------------------+
| [1, "x"]                                    |
+---------------------------------------------+

drop table if exists t;
create table t
(
    a json
);

insert into t
values ('{"a":1,"b":2,"c":3}');

select json_extract(a, '$.a')
from t;
+----------------------+
| json_extract(a,$.a)            |
+----------------------+
| 1                    |
+----------------------+

insert into t
values ('{"a":5,"b":6,"c":7}');
select json_extract(a, '$.a')
from t;
+----------------------+
| json_extract(a,$.a)            |
+----------------------+
| 1                    |
| 5                    |
+----------------------+

Documentation

Index

Constants

View Source
const (
	LiteralNull byte = iota + 1
	LiteralTrue
	LiteralFalse
)

Variables

View Source
var (
	Null = ByteJson{Type: TpCodeLiteral, Data: []byte{LiteralNull}}
)

Functions

func ParseJsonByteFromString added in v0.8.0

func ParseJsonByteFromString(s string) ([]byte, error)

Types

type ByteJson

type ByteJson struct {
	Data []byte
	Type TpCode
}

func ParseFromByteSlice

func ParseFromByteSlice(s []byte) (bj ByteJson, err error)

func ParseFromString

func ParseFromString(s string) (ret ByteJson, err error)

func (ByteJson) GetElemCnt

func (bj ByteJson) GetElemCnt() int

func (ByteJson) GetFloat64

func (bj ByteJson) GetFloat64() float64

func (ByteJson) GetInt64

func (bj ByteJson) GetInt64() int64

func (ByteJson) GetString

func (bj ByteJson) GetString() []byte

func (ByteJson) GetUint64

func (bj ByteJson) GetUint64() uint64

func (ByteJson) IsNull

func (bj ByteJson) IsNull() bool

func (ByteJson) Marshal

func (bj ByteJson) Marshal() ([]byte, error)

Marshal transform bytejson to []byte,for storage

func (ByteJson) MarshalJSON

func (bj ByteJson) MarshalJSON() ([]byte, error)

MarshalJSON transform bytejson to []byte,for visible

func (ByteJson) Query

func (bj ByteJson) Query(paths []*Path) *ByteJson

func (ByteJson) String

func (bj ByteJson) String() string

func (*ByteJson) Unmarshal

func (bj *ByteJson) Unmarshal(buf []byte) error

Unmarshal transform storage []byte to bytejson

func (*ByteJson) UnmarshalJSON

func (bj *ByteJson) UnmarshalJSON(data []byte) error

UnmarshalJSON transform visible []byte to bytejson

func (*ByteJson) UnmarshalObject added in v0.7.0

func (bj *ByteJson) UnmarshalObject(obj interface{}) (err error)

func (ByteJson) Unnest

func (bj ByteJson) Unnest(path *Path, outer, recursive bool, mode string, filterMap map[string]struct{}) ([]UnnestResult, error)

Unnest returns a slice of UnnestResult, each UnnestResult contains filtered data, if param filters is nil, return all fields.

func (ByteJson) Unquote added in v0.7.0

func (bj ByteJson) Unquote() (string, error)

type Path

type Path struct {
	// contains filtered or unexported fields
}

func ParseJsonPath

func ParseJsonPath(path string) (p Path, err error)

func (*Path) String

func (p *Path) String() string

type TpCode

type TpCode byte
const (
	TpCodeObject  TpCode = 0x01
	TpCodeArray   TpCode = 0x03
	TpCodeLiteral TpCode = 0x04
	TpCodeInt64   TpCode = 0x09
	TpCodeUint64  TpCode = 0x0a
	TpCodeFloat64 TpCode = 0x0b
	TpCodeString  TpCode = 0x0c
)

type UnnestResult

type UnnestResult map[string][]byte

func (UnnestResult) String

func (r UnnestResult) String() string

for test

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