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14 KiB
Markdown
291 lines
14 KiB
Markdown
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# The JSONB Format
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This document describes SQLite's JSONB binary encoding of
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JSON.
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## 1.0 What Is JSONB?
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Beginning with version 3.45.0 (circa 2024-01-01), SQLite supports an
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alternative binary encoding of JSON which we call "JSONB". JSONB is
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a binary format that stored as a BLOB.
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The advantage of JSONB over ordinary text RFC 8259 JSON is that JSONB
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is both slightly smaller (by between 5% and 10% in most cases) and
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can be processed in less than half the number of CPU cycles. The built-in
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[JSON SQL functions] of SQLite can accept either ordinary text JSON
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or the binary JSONB encoding for any of their JSON inputs.
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The "JSONB" name is inspired by [PostgreSQL](https://postgresql.org), but the
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on-disk format for SQLite's JSONB is not the same as PostgreSQL's.
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The two formats have the same name, but they have wildly different internal
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representations and are not in any way binary compatible.
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The central idea behind this JSONB specification is that each element
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begins with a header that includes the size and type of that element.
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The header takes the place of punctuation such as double-quotes,
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curly-brackes, square-brackets, commas, and colons. Since the size
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and type of each element is contained in its header, the element can
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be read faster since it is no longer necessary to carefully scan forward
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looking for the closing delimiter. The payload of JSONB is the same
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as for corresponding text JSON. The same payload bytes occur in the
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same order. The only real difference between JSONB and ordinary text
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JSON is that JSONB includes a binary header on
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each element and omits delimiter and separator punctuation.
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### 1.1 Internal Use Only
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The details of the JSONB are not intended to be visible to application
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developers. Application developers should look at JSONB as an opaque BLOB
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used internally by SQLite. Nevertheless, we want the format to be backwards
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compatible across all future versions of SQLite. To that end, the format
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is documented by this file in the source tree. But this file should be
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used only by SQLite core developers, not by developers of applications
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that only use SQLite.
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## 2.0 The Purpose Of This Document
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JSONB is not intended as an external format to be used by
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applications. JSONB is designed for internal use by SQLite only.
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Programmers do not need to understand the JSONB format in order to
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use it effectively.
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Applications should access JSONB only through the [JSON SQL functions],
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not by looking at individual bytes of the BLOB.
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However, JSONB is intended to be portable and backwards compatible
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for all future versions of SQLite. In other words, you should not have
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to export and reimport your SQLite database files when you upgrade to
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a newer SQLite version. For that reason, the JSONB format needs to
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be well-defined.
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This document is therefore similar in purpose to the
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[SQLite database file format] document that describes the on-disk
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format of an SQLite database file. Applications are not expected
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to directly read and write the bits and bytes of SQLite database files.
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The SQLite database file format is carefully documented so that it
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can be stable and enduring. In the same way, the JSONB representation
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of JSON is documented here so that it too can be stable and enduring,
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not so that applications can read or writes individual bytes.
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## 3.0 Encoding
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JSONB is a direct translation of the underlying text JSON. The difference
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is that JSONB uses a binary encoding that is faster to parse compared to
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the detailed syntax of text JSON.
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Each JSON element is encoded as a header and a payload. The header
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determines type of element (string, numeric, boolean, null, object, or
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array) and the size of the payload. The header can be between 1 and
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9 bytes in size. The payload can be any size from zero bytes up to the
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maximum allowed BLOB size.
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### 3.1 Payload Size
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The upper four bits of the first byte of the header determine size of the
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header and possibly also the size of the payload.
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If the upper four bits have a value between 0 and 11, then the header is
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exactly one byte in size and the payload size is determined by those
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upper four bits. If the upper four bits have a value between 12 and 15,
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that means that the total header size is 2, 3, 5, or 9 bytes and the
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payload size is unsigned big-endian integer that is contained in the
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subsequent bytes. The size integer is the one byte that following the
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initial header byte if the upper four bits
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are 12, two bytes if the upper bits are 13, four bytes if the upper bits
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are 14, and eight bytes if the upper bits are 15. The current design
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of SQLite does not support BLOB values larger than 2GiB, so the eight-byte
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variant of the payload size integer will never be used by the current code.
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The eight-byte payload size integer is included in the specification
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to allow for future expansion.
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The header for an element does *not* need to be in its simplest
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form. For example, consider the JSON numeric value "`1`".
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That element can be encode in five different ways:
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* `0x13 0x31`
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* `0xc3 0x01 0x31`
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* `0xd3 0x00 0x01 0x31`
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* `0xe3 0x00 0x00 0x00 0x01 0x31`
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* `0xf3 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x01 0x31`
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The shortest encoding is preferred, of course, and usually happens with
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primitive elements such as numbers. However the total size of an array
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or object might not be known exactly when the header of the element is
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first generated. It is convenient to reserve space for the largest
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possible header and then go back and fill in the correct payload size
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at the end. This technique can result in array or object headers that
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are larger than absolutely necessary.
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### 3.2 Element Type
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The least-significant four bits of the first byte of the header (the first
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byte masked against 0x0f) determine element type. The following codes are
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used:
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<ol>
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<li type="0"><p><b>NULL</b> →
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The element is a JSON "null". The payload size for a true JSON NULL must
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must be zero. Future versions of SQLite might extend the JSONB format
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with elements that have a zero element type but a non-zero size. In that
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way, legacy versions of SQLite will interpret the element as a NULL
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for backwards compatibility while newer versions will interpret the
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element in some other way.
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<li value="1"><p><b>TRUE</b> →
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The element is a JSON "true". The payload size must be zero for a actual
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"true" value. Elements with type 1 and a non-zero payload size are
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reserved for future expansion. Legacy implementations that see an element
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type of 1 with a non-zero payload size should continue to interpret that
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element as "true" for compatibility.
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<li value="2"><p><b>FALSE</b> →
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The element is a JSON "false". The payload size must be zero for a actual
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"false" value. Elements with type 2 and a non-zero payload size are
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reserved for future expansion. Legacy implementations that see an element
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type of 2 with a non-zero payload size should continue to interpret that
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element as "false" for compatibility.
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<li value="3"><p><b>INT</b> →
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The element is a JSON integer value in the canonical
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RFC 8259 format, without extensions. The payload is the ASCII
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text representation of that numeric value.
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<li value="4"><p><b>INT5</b> →
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The element is a JSON integer value that is not in the
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canonical format. The payload is the ASCII
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text representation of that numeric value. Because the payload is in a
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non-standard format, it will need to be translated when the JSONB is
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converted into RFC 8259 text JSON.
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<li value="5"><p><b>FLOAT</b> →
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The element is a JSON floating-point value in the canonical
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RFC 8259 format, without extensions. The payload is the ASCII
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text representation of that numeric value.
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<li value="6"><p><b>FLOAT5</b> →
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The element is a JSON floating-point value that is not in the
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canonical format. The payload is the ASCII
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text representation of that numeric value. Because the payload is in a
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non-standard format, it will need to be translated when the JSONB is
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converted into RFC 8259 text JSON.
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<li value="7"><p><b>TEXT</b> →
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The element is a JSON string value that does not contain
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any escapes nor any characters that need to be escaped for either SQL or
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JSON. The payload is the UTF8 text representation of the string value.
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The payload does <i>not</i> include string delimiters.
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<li value="8"><p><b>TEXTJ</b> →
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The element is a JSON string value that contains
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RFC 8259 character escapes (such as "<tt>\n</tt>" or "<tt>\u0020</tt>").
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Those escapes will need to be translated into actual UTF8 if this element
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is [json_extract|extracted] into SQL.
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The payload is the UTF8 text representation of the escaped string value.
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The payload does <i>not</i> include string delimiters.
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<li value="9"><p><b>TEXT5</b> →
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The element is a JSON string value that contains
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character escapes, including some character escapes that part of JSON5
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and which are not found in the canonical RFC 8259 spec.
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Those escapes will need to be translated into standard JSON prior to
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rendering the JSON as text, or into their actual UTF8 characters if this
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element is [json_extract|extracted] into SQL.
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The payload is the UTF8 text representation of the escaped string value.
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The payload does <i>not</i> include string delimiters.
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<li value="10"><p><b>TEXTRAW</b> →
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The element is a JSON string value that contains
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UTF8 characters that need to be escaped if this string is rendered into
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standard JSON text.
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The payload does <i>not</i> include string delimiters.
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<li value="11"><p><b>ARRAY</b> →
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The element is a JSON array. The payload contains
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JSONB elements that comprise values contained within the array.
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<li value="12"><p><b>OBJECT</b> →
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The element is a JSON object. The payload contains
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pairs of JSONB elements that comprise entries for the JSON object.
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The first element in each pair must be a string (types 7 through 10).
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The second element of each pair may be any types, including nested
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arrays or objects.
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<li value="13"><p><b>RESERVED-13</b> →
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Reserved for future expansion. Legacy implements that encounter this
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element type should raise an error.
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<li value="14"><p><b>RESERVED-14</b> →
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Reserved for future expansion. Legacy implements that encounter this
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element type should raise an error.
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<li value="15"><p><b>RESERVED-15</b> →
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Reserved for future expansion. Legacy implements that encounter this
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element type should raise an error.
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</ol>
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Element types outside the range of 0 to 12 are reserved for future
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expansion. The current implement raises an error if see an element type
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other than those listed above. However, future versions of SQLite might
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use of the three remaining element types to implement indexing or similar
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optimizations, to speed up lookup against large JSON arrays and/or objects.
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### 3.3 Design Rationale For Element Types
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A key goal of JSONB is that it should be quick to translate
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to and from text JSON and/or be constructed from SQL values.
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When converting from text into JSONB, we do not want the
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converter subroutine to burn CPU cycles converting elements
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values into some standard format which might never be used.
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Format conversion is "lazy" - it is deferred until actually
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needed. This has implications for the JSONB format design:
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1. Numeric values are stored as text, not a numbers. The values are
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a direct copy of the text JSON values from which they are derived.
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2. There are multiple element types depending on the details of value
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formats. For example, INT is used for pure RFC-8259 integer
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literals and INT5 exists for JSON5 extensions such as hexadecimal
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notation. FLOAT is used for pure RFC-8259 floating point literals
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and FLOAT5 is used for JSON5 extensions. There are four different
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representations of strings, depending on where the string came from
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and how special characters within the string are escaped.
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A second goal of JSONB is that it should be capable of serving as the
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"parse tree" for JSON when a JSON value is being processed by the
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various [JSON SQL functions] built into SQLite. Before JSONB was
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developed, operations such [json_replace()] and [json_patch()]
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and similar worked in three stages:
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1. Translate the text JSON into a internal format that is
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easier to scan and edit.
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2. Perform the requested operation on the JSON.
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3. Translate the internal format back into text.
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JSONB seeks to serve as the internal format directly - bypassing
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the first and third stages of that process. Since most of the CPU
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cycles are spent on the first and third stages, that suggests that
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JSONB processing will be much faster than text JSON processing.
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So when processing JSONB, only the second stage of the three-stage
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process is required. But when processing text JSON, it is still necessary
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to do stages one and three. If JSONB is to be used as the internal
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binary representation, this is yet another reason to store numeric
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values as text. Storing numbers as text minimizes the amount of
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conversion work needed for stages one and three. This is also why
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there are four different representations of text in JSONB. Different
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text representations are used for text coming from different sources
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(RFC-8259 JSON, JSON5, or SQL string values) and conversions only
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happen if and when they are actually needed.
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### 3.4 Valid JSONB BLOBs
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A valid JSONB BLOB consists of a single JSON element. The element must
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exactly fill the BLOB. This one element is often a JSON object or array
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and those usually contain additional elements as its payload, but the
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element can be a primite value such a string, number, boolean, or null.
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When the built-in JSON functions are attempting to determine if a BLOB
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argument is a JSONB or just a random BLOB, they look at the header of
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the outer element to see that it is well-formed and that the element
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completely fills the BLOB. If these conditions are met, then the BLOB
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is accepted as a JSONB value.
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