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299 lines
10 KiB
Go
299 lines
10 KiB
Go
// Copyright 2014 The ql Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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/*
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Package design describes some of the data structures used in QL.
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Handles
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A handle is a 7 byte "pointer" to a block in the DB[0].
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Scalar encoding
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Encoding of so called "scalars" provided by [1]. Unless specified otherwise,
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all values discussed below are scalars, encoded scalars or encoding of scalar
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arrays.
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Database root
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DB root is a 1-scalar found at a fixed handle (#1).
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+---+------+--------+-----------------------+
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| # | Name | Type | Description |
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+---+------+--------+-----------------------+
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| 0 | head | handle | First table meta data |
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+---+------+--------+-----------------------+
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Head is the head of a single linked list of table of meta data. It's zero if
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there are no tables in the DB.
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Table meta data
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Table meta data are a 6-scalar.
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+---+---------+--------+--------------------------+
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| # | Name | Type | Description |
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+---+---------+--------+--------------------------+
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| 0 | next | handle | Next table meta data. |
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| 1 | scols | string | Column defintitions |
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| 2 | hhead | handle | -> head -> first record |
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| 3 | name | string | Table name |
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| 4 | indices | string | Index definitions |
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| 5 | hxroots | handle | Index B+Trees roots list |
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+---+---------+--------+--------------------------+
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Fields #4 and #5 are optional for backward compatibility with existing
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databases. OTOH, forward compatibility will not work. Once any indices are
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created using a newer QL version the older versions of QL, expecting only 4
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fields of meta data will not be able to use the DB. That's the intended
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behavior because the older versions of QL cannot update the indexes, which can
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break queries runned by the newer QL version which expect indices to be always
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actualized on any table-with-indices mutation.
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The handle of the next table meta data is in the field #0 (next). If there is
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no next table meta data, the field is zero. Names and types of table columns
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are stored in field #1 (scols). A single field is described by concatenating a
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type tag and the column name. The type tags are
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bool 'b'
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complex64 'c'
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complex128 'd'
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float32 'f'
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float64 'g', alias float
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int8 'i'
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int16 'j'
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int32 'k'
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int64 'l', alias int
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string 's'
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uint8 'u', alias byte
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uint16 'v'
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uint32 'w'
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uint64 'x', alias uint
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bigInt 'I'
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bigRat 'R'
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blob 'B'
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duration 'D'
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time 'T'
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The scols value is the above described encoded fields joined using "|". For
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example
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CREATE TABLE t (Foo bool, Bar string, Baz float);
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This statement adds a table meta data with scols
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"bFool|sBar|gBaz"
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Columns can be dropped from a table
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ALTER TABLE t DROP COLUMN Bar;
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This "erases" the field info in scols, so the value becomes
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"bFool||gBaz"
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Colums can be added to a table
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ALTER TABLE t ADD Count uint;
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New fields are always added to the end of scols
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"bFool||gBaz|xCount"
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Index of a field in strings.Split(scols, "|") is the index of the field in a
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table record. The above discussed rules for column dropping and column adding
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allow for schema evolution without a need to reshape any existing table data.
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Dropped columns are left where they are and new records insert nil in their
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place. The encoded nil is one byte. Added columns, when not present in
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preexisting records are returned as nil values. If the overhead of dropped
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columns becomes an issue and there's time/space and memory enough to move the
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records of a table around:
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BEGIN TRANSACTION;
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CREATE TABLE new (column definitions);
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INSERT INTO new SELECT * FROM old;
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DROP TABLE old;
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CREATE TABLE old (column definitions);
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INSERT INTO old SELECT * FROM new;
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DROP TABLE new;
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END TRANSACTION;
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This is not very time/space effective and for Big Data it can cause an OOM
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because transactions are limited by memory resources available to the process.
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Perhaps a method and/or QL statement to do this in-place should be added
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(MAYBE consider adopting MySQL's OPTIMIZE TABLE syntax).
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Field #2 (hhead) is a handle to a head of table records, i.e. not a handle to
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the first record in the table. It is thus always non zero even for a table
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having no records. The reason for this "double pointer" schema is to enable
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adding (linking) a new record by updating a single value of the (hhead pointing
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to) head.
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tableMeta.hhead -> head -> firstTableRecord
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The table name is stored in field #3 (name).
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Indices
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Consider an index named N, indexing column named C. The encoding of this
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particular index is a string "<tag>N". <tag> is a string "n" for non unique
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indices and "u" for unique indices. There is this index information for the
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index possibly indexing the record id() and for all other columns of scols.
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Where the column is not indexed, the index info is an empty string. Infos for
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all indexes are joined with "|". For example
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BEGIN TRANSACTION;
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CREATE TABLE t (Foo int, Bar bool, Baz string);
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CREATE INDEX X ON t (Baz);
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CREATE UNIQUE INDEX Y ON t (Foo);
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COMMIT;
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The values of fields #1 and #4 for the above are
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scols: "lFoo|bBar|sBaz"
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indices: "|uY||nX"
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Aligning properly the "|" split parts
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id col #0 col#1 col#2
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+----------+----+--------+--------+--------+
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| scols: | | "lFoo" | "bBar" | "sBaz" |
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+----------+----+--------+--------+--------+
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| indices: | "" | "uY" | "" | "nX" |
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+----------+----+--------+--------+--------+
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shows that the record id() is not indexed for this table while the columns Foo
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and Baz are.
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Note that there cannot be two differently named indexes for the same column and
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it's intended. The indices are B+Trees[2]. The list of handles to their roots
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is pointed to by hxroots with zeros for non indexed columns. For the previous
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example
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tableMeta.hxroots -> {0, y, 0, x}
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where x is the root of the B+Tree for the X index and y is the root of the
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B+Tree for the Y index. If there would be an index for id(), its B+Tree root
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will be present where the first zero is. Similarly to hhead, hxroots is never
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zero, even when there are no indices for a table.
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Table record
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A table record is an N-scalar.
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+-----+------------+--------+-------------------------------+
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| # | Name | Type | Description |
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+-----+------------+--------+-------------------------------+
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| 0 | next | handle | Next record or zero. |
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| 1 | id | int64 | Automatically assigned unique |
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| | | | value obtainable by id(). |
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| 2 | field #0 | scalar | First field of the record. |
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| 3 | field #1 | scalar | Second field of the record. |
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...
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| N-1 | field #N-2 | scalar | Last field of the record. |
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+-----+------------+--------+-------------------------------+
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The linked "ordering" of table records has no semantics and it doesn't have to
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correlate to the order of how the records were added to the table. In fact, an
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efficient way of the linking leads to "ordering" which is actually reversed wrt
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the insertion order.
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Non unique index
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The composite key of the B+Tree is {indexed values, record handle}. The B+Tree
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value is not used.
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B+Tree key B+Tree value
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+----------------+---------------+ +--------------+
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| Indexed Values | Record Handle | -> | not used |
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+----------------+---------------+ +--------------+
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Unique index
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If the indexed values are all NULL then the composite B+Tree key is {nil,
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record handle} and the B+Tree value is not used.
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B+Tree key B+Tree value
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+------+-----------------+ +--------------+
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| NULL | Record Handle | -> | not used |
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+------+-----------------+ +--------------+
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If the indexed values are not all NULL then key of the B+Tree key are the indexed
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values and the B+Tree value is the record handle.
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B+Tree key B+Tree value
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+----------------+ +---------------+
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| Indexed Values | -> | Record Handle |
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+----------------+ +---------------+
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Non scalar types
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Scalar types of [1] are bool, complex*, float*, int*, uint*, string and []byte
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types. All other types are "blob-like".
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QL type Go type
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-----------------------------
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blob []byte
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bigint big.Int
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bigrat big.Rat
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time time.Time
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duration time.Duration
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Memory back-end stores the Go type directly. File back-end must resort to
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encode all of the above as (tagged) []byte due to the lack of more types
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supported natively by lldb. NULL values of blob-like types are encoded as nil
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(gbNull in lldb/gb.go), exactly the same as the already existing QL types are.
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Blob encoding
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The values of the blob-like types are first encoded into a []byte slice:
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+-----------------------+-------------------+
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| blob | raw |
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| bigint, bigrat, time | gob encoded |
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| duration | gob encoded int64 |
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+-----------------------+-------------------+
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The gob encoding is "differential" wrt an initial encoding of all of the
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blob-like type. IOW, the initial type descriptors which gob encoding must write
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out are stripped off and "resupplied" on decoding transparently. See also
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blob.go. If the length of the resulting slice is <= shortBlob, the first and
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only chunk is the scalar encoding of
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[]interface{}{typeTag, slice}. // initial (and last) chunk
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The length of slice can be zero (for blob("")). If the resulting slice is long
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(> shortBlob), the first chunk comes from encoding
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[]interface{}{typeTag, nextHandle, firstPart}. // initial, but not final chunk
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In this case len(firstPart) <= shortBlob. Second and other chunks: If the chunk
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is the last one, src is
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[]interface{lastPart}. // overflow chunk (last)
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In this case len(lastPart) <= 64kB. If the chunk is not the last one, src is
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[]interface{}{nextHandle, part}. // overflow chunk (not last)
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In this case len(part) == 64kB.
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Links
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Referenced from above:
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[0]: http://godoc.org/github.com/cznic/lldb#hdr-Block_handles
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[1]: http://godoc.org/github.com/cznic/lldb#EncodeScalars
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[2]: http://godoc.org/github.com/cznic/lldb#BTree
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Rationale
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While these notes might be useful to anyone looking at QL sources, the
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specifically intended reader is my future self.
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*/
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package design
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