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pg_extension_name pg_extension_version pg_readme_generated_at pg_readme_version
pg_text_semver
1.2.1
2024-03-07 16:00:03 +0000
0.6.6

PostgreSQL semantic versioning extension: pg_text_semver

PGXN version

This is not the only Postgres extension that implements the Semantic Versioning 2.0.0 Specification; what sets this one apart is that offers a simple semver DOMAIN based on Postgres' built-in text type.

pg_text_semver features

  • Values of the semver domain type can be compared:
    • using the usual comparison operators—<, '>, <=, >=, <>, !=, and =`—; or
    • using the semver_cmp(semver, semver) function directly.
  • The semver domain is constrained using the semver_regexp() function. This means that you can also access this regular expression directly, either with capturing groups or without, by passing true or false to the function, respectively.
  • Parsed semver values can be obtained by casting to the semver_parsed composite type.
  • All the same comparison operators and functions exist for semver_parsed as do for plain semver values.
  • In addition, semver_parsed values can be used for sorting and indexing.
  • semver_parsed values can be serialized to a properly formatted semantic version by casting (back) to semver or text.
  • There's a separate semver_prerelease domain type, so that the prerelease portions of semantic versions can be validated or compared (using the semver_prerelease_cmp() function.

Installation

Basically:

sudo make install

Like most Postgres extensions, pg_text_semver requires Postgres' PGXS build infrastructure for make install to work. Depending on your OS, this may or may not require you to install anything in addition to the package you need to install to get the postgres daemon up and running.

pg_text_semver usage

See the test__pg_text_semver() procedure for examples of how to use the types, operators and functions provides by this extension.

Alternatives to pg_text_semver

An excellent pre-existing alternative to pg_text_semver is the semver extension. semver is written in C and therefore more efficient than pg_text_semver. But, as of March 2, 2023, it treats the parts of the semantic version as 32-bit integers, while the spec prescribes no limitations to the size of each number.

Besides semver (repo name pg-semver, with a dash), there is also the older PG SEMVER (repo name pg_semver, with an underscore). The pg_text_semver author only discovered PG SEMVER after releasing his own extension, and hasn't tried it; something left to do…

Object reference

Routines

Function: max (semver)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver

Function return type: semver

Function attributes: IMMUTABLE, COST 1

Function: meta_pgxn_version_range_cmp (text, text)

Use this function if you want to check a version (semantic or otherwise) against a PGXN META.json Version Ranges.

This function takes 2 arguments:

  1. a Version Ranges string confirmed to PGXN's META.json spec; and
  2. a version string to tests against the Version Ranges;

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN text
$2 IN text

Function return type: boolean

Function attributes: IMMUTABLE, LEAKPROOF, RETURNS NULL ON NULL INPUT, PARALLEL SAFE

Function: meta_pgxn_version_range (text)

Returns a row for each element from a Version Ranges value that adheres to the PGXN META.json spec.

When dealing with version ranges from a PGXN META.json file, it may be convenient to parse these out so that the constraints can then, for example be fed into semver_cmp(semver, semver, text).

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN `` text
$2 TABLE version_range_op text
$3 TABLE version_no text
$4 TABLE any_version boolean

Function return type: TABLE(version_range_op text, version_no text, any_version boolean)

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE, ROWS 1000

Function: min (semver)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver

Function return type: semver

Function attributes: IMMUTABLE, COST 1

Function: nonsemver_cmp (text, text, text)

When we don't know the semantics of two version strings, it's hard to compare them for anything else than equality. But, in case you do want to do that, there's this function.

The first two function arguments are the versions to compare. The third argument must be an unequality operator ('=' or '==') or an unequality operator ('!=' or '<>').

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN text
$2 IN text
$3 IN text

Function return type: boolean

Function attributes: IMMUTABLE, LEAKPROOF, RETURNS NULL ON NULL INPUT, PARALLEL SAFE

Function: pg_text_semver_meta_pgxn()

Returns the JSON meta data that has to go into the META.json file needed for PGXN—PostgreSQL Extension Network—packages.

The Makefile includes a recipe to allow the developer to: make META.json to refresh the meta file with the function's current output, including the default_version.

And indeed, pg_text_semver can be found on PGXN: https://pgxn.org/dist/pg_text_semver/

Function return type: jsonb

Function attributes: STABLE

Function: pg_text_semver_readme()

This function utilizes the pg_readme extension to generate a thorough README for this extension, based on the pg_catalog and the COMMENT objects found therein.

Function return type: text

Function-local settings:

  • SET search_path TO ext, pg_temp
  • SET pg_readme.include_view_definitions TO true
  • SET pg_readme.include_routine_definitions_like TO {test__%}

Function: semver_cmp (semver_parsed, semver_parsed)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver_parsed
$2 IN semver_parsed

Function return type: integer

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_cmp (semver, semver)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver
$2 IN semver

Function return type: integer

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_cmp (semver, semver, text)

This function is convenient if you want to compare two versions, and want to dynamically give the comparison operator as a third argument rather than hardcoding the call to a specific comparison operator (function).

Both the SQL notation and non-SQL notation of some operators are supported, to be at least flexible enough to, for instance, support testing version range constraints according to the PGXN spec.

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver
$2 IN semver
$3 IN text

Function return type: boolean

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_eq (semver_parsed, semver_parsed)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver_parsed
$2 IN semver_parsed

Function return type: boolean

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_eq (semver, semver)

This functions returns true if two semantic versions are semantically identical to each other, false otherwise.

This is the only function in the semver_<op>(semver, semver) family that does not utilize semver_cmp(semver, semver). Whether that one extra level of indirection would indeed hinder performance remains to be tested, as of March 2, 2024.

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver
$2 IN semver

Function return type: boolean

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_ge (semver_parsed, semver_parsed)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver_parsed
$2 IN semver_parsed

Function return type: boolean

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_ge (semver, semver)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver
$2 IN semver

Function return type: boolean

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_greatest (semver, semver)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver
$2 IN semver

Function return type: semver

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_gt (semver_parsed, semver_parsed)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver_parsed
$2 IN semver_parsed

Function return type: boolean

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_gt (semver, semver)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver
$2 IN semver

Function return type: boolean

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_least (semver, semver)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver
$2 IN semver

Function return type: semver

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_le (semver_parsed, semver_parsed)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver_parsed
$2 IN semver_parsed

Function return type: boolean

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_le (semver, semver)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver
$2 IN semver

Function return type: boolean

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_lt (semver_parsed, semver_parsed)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver_parsed
$2 IN semver_parsed

Function return type: boolean

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_lt (semver, semver)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver
$2 IN semver

Function return type: boolean

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_parsed (semver)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver

Function return type: semver_parsed

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_parsed (text)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN text

Function return type: semver_parsed

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_prerelease_cmp (semver_prerelease, semver_prerelease)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver_prerelease
$2 IN semver_prerelease

Function return type: integer

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_prerelease_eq (semver_prerelease, semver_prerelease)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver_prerelease
$2 IN semver_prerelease

Function return type: boolean

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_prerelease_ge (semver_prerelease, semver_prerelease)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver_prerelease
$2 IN semver_prerelease

Function return type: boolean

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_prerelease_gt (semver_prerelease, semver_prerelease)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver_prerelease
$2 IN semver_prerelease

Function return type: boolean

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_prerelease_le (semver_prerelease, semver_prerelease)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver_prerelease
$2 IN semver_prerelease

Function return type: boolean

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_prerelease_lt (semver_prerelease, semver_prerelease)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver_prerelease
$2 IN semver_prerelease

Function return type: boolean

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_prerelease_regexp()

Function return type: text

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver_regexp (boolean)

Returns a regular expression to match or parse a semantic version string.

The regular expression is based on the official regular expression from semver.or.

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN with_capture_groups$ boolean false

Function return type: text

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Function: semver (semver_parsed)

Function arguments:

Arg. # Arg. mode Argument name Argument type Default expression
$1 IN semver_parsed

Function return type: semver

Function attributes: IMMUTABLE, LEAKPROOF, PARALLEL SAFE

Procedure: test__pg_text_semver()

Procedure-local settings:

  • SET search_path TO pg_catalog
  • SET plpgsql.check_asserts TO true
  • SET pg_readme.include_this_routine_definition TO true
CREATE OR REPLACE PROCEDURE ext.test__pg_text_semver()
 LANGUAGE plpgsql
 SET search_path TO 'pg_catalog'
 SET "plpgsql.check_asserts" TO 'true'
 SET "pg_readme.include_this_routine_definition" TO 'true'
AS $procedure$
begin
    -- Because this extension is relocatable, let's update the search_path to include the extensions current
    -- schema (which we couldn't have done by `SET search_path TO CURRENT` in the extension setup script.
    perform
        set_config('search_path', e.extnamespace::regnamespace::text || ', pg_catalog', true)
    from
        pg_extension as e
    where
        e.extname = 'pg_text_semver'
    ;

    -- Remember the buildup of a semver: <major>.<minor>.<patch>-<prerelease>+<build>

    -- We can validate the prerelease portion of a semantic version separately:
    assert 'alpha-1' ~ semver_prerelease_regexp();
    assert '0123' !~ semver_prerelease_regexp(), '0 may NOT lead in a numeric prerelease identifer.';
    assert '0something' ~ semver_prerelease_regexp(), '0 MAY lead in an ALPHAnumeric prerelease identifer.';

    -- Or we can use the domain that uses that regexp in its check constraint:
    perform 'alpha-1'::semver_prerelease;
    perform 'alpha28743'::semver_prerelease;
    perform '0.1.a.a1-.99-e'::semver_prerelease;
    perform 'a1.99-e-'::semver_prerelease;
    perform null::semver_prerelease, 'A prerelease tag is not a mandatory part of a semantic version.';

    --
    -- The prerelease parts of semantic versions can be separately compared:

    assert semver_prerelease_cmp(null, 'beta') = 1;
    assert null::semver_prerelease > 'beta'::semver_prerelease;

    assert semver_prerelease_cmp(null, null) = 0;
    assert null::semver_prerelease = null::semver_prerelease, 'Missing prerelease tags should count equally.';

    assert semver_prerelease_cmp('same', 'same') = 0;
    assert 'same'::semver_prerelease = 'same'::semver_prerelease;
    assert 's.4.m.e'::semver_prerelease = 's.4.m.e'::semver_prerelease;

    assert semver_prerelease_cmp('alpha', null) = -1;
    assert 'alpha'::semver_prerelease < null::semver_prerelease;

    assert semver_prerelease_cmp('string.180', 'string.20') = 1;
    assert 'string.180'::semver_prerelease > 'string.20'::semver_prerelease;

    assert semver_prerelease_cmp('has.3.identifiers', 'has.3.identifiers.plus-1') = -1;
    assert 'has.3.identifiers'::semver_prerelease < 'has.3.identifiers.plus-1'::semver_prerelease;

    assert semver_prerelease_cmp('0.1.2.3.4', '0.1.2.3.4') = 0;
    assert '0.1.2.3.4'::semver_prerelease = '0.1.2.3.4'::semver_prerelease;

    assert semver_prerelease_cmp('0.1.2.3.4.5', '0.1.2.3.4') = 1;
    assert '0.1.2.3.4.5'::semver_prerelease > '0.1.2.3.4'::semver_prerelease;

    --
    -- The `semvver_parsed` type and accompanying functions are used by the `semver` comparison functions,
    -- so we test the former first because we want to test from the deepest dependency up, which is also
    -- why we _started_ by testing the `semver_prerelease` domain and its associated functions.
    --

    -- We cast to `jsonb` here to bypass `semver_parsed` its very own equality operator.
    assert to_jsonb(semver_parsed('1.0.0')) = to_jsonb(row('1', '0', '0', null, null)::semver_parsed);
    assert to_jsonb(semver_parsed('8.4.7-alpha')) = to_jsonb(row('8', '4', '7', 'alpha', null)::semver_parsed);
    assert to_jsonb(semver_parsed('1.0.0+commit-x')) = to_jsonb(row('1', '0', '0', null, 'commit-x')::semver_parsed);
    assert to_jsonb(semver_parsed('1.0.0-a.1+commit-y')) = to_jsonb(row('1', '0', '0', 'a.1', 'commit-y')::semver_parsed);

    -- Semantic versions can be constructed from a composite by casting to `text`.
    assert row('1', '0', '0', null, null)::semver_parsed::text = '1.0.0';
    -- Or by casting to `semver` (a `text` `DOMAIN`):
    assert row('1', '0', '0', null, null)::semver_parsed::semver = '1.0.0';
    -- When we cast to `semver`, validation is implicit:
    begin
        perform row('l', '0', 'l', null, null)::semver_parsed::semver;
        raise assert_failure using message = 'l.0.l should not be accepted as a valid semver.';
    exception when check_violation then
    end;

    -- `semver_parsed` can be ordered semantically.
    declare
        _presorted text[] = array[
            '0.0.9'
            ,'0.0.88-alpha-2-a'
            ,'0.0.88+stuff'
            ,'0.0.88'
            ,'1.0.0-a'
            ,'1.0.0-a.123'
            ,'1.0.0'
        ];
        _shuffled text[] = array[
            '0.0.88-alpha-2-a'
            ,'0.0.88'
            ,'0.0.9'
            ,'1.0.0'
            ,'1.0.0-a.123'
            ,'1.0.0-a'
            ,'0.0.88+stuff'
        ];
        _resorted text[] = (select array_agg(v order by v::semver_parsed) from unnest(_shuffled) as v);
    begin
        assert _resorted = _presorted, format('%s ≠ %s', _resorted, _presorted);
    end;

    assert '0.9.3'::semver < '0.11.2'::semver;
    assert '10.0.0'::semver > '2.9.9'::semver;

    assert '1.0.0-alpha'::semver < '1.0.0'::semver;
    assert '1.0.0-alpha'::semver < '1.0.0-alpha.2'::semver;
    assert '1.0.0-alpha.1'::semver < '1.0.0-alpha.2'::semver;
    assert '1.0.0-alpha.1'::semver < '1.0.0-alpha.a'::semver;
    assert '1.0.0-alpha'::semver < '1.0.0-beta'::semver;

    assert '8.8.8+bla'::semver = '8.8.8'::semver,
        '“Build metadata MUST be ignored when determining version precedence.”';
    assert '8.8.8+bla'::semver = '8.8.8+bah'::semver,
        '“Build metadata MUST be ignored when determining version precedence.”';
    assert '8.8.8-alpha+build12'::semver = '8.8.8-alpha+build13'::semver,
        '“Build metadata MUST be ignored when determining version precedence.”';
    assert '8.8.8-alpha+build12'::semver = '8.8.8-alpha'::semver;

    -- Unlike `semver_parsed`, plain `semver` cannot be ordered semantically; because `semver` is a `text`
    -- domain, it will be sorted lexically as such.  _But_, we can always cast to `semver_parsed` for
    -- ordering and indexing.  Do remember to index on that cast expression then, or your queries will be
    -- slow!
    declare
        _presorted text[] := array[
            '0.0.9'
            ,'0.0.88-alpha-2-a'
            ,'0.0.88+stuff'
            ,'0.0.88'
            ,'1.0.0-a'
            ,'1.0.0-a.123'
            ,'1.0.0'
        ];
        _shuffled text[] := array[
            '0.0.88-alpha-2-a'
            ,'0.0.88'
            ,'0.0.9'
            ,'1.0.0'
            ,'1.0.0-a.123'
            ,'1.0.0-a'
            ,'0.0.88+stuff'
        ];
        _resorted text[];
    begin
        create temporary table shuffled (v semver);
        insert into shuffled select v from unnest(_shuffled) as v;
        --create index on shuffled (v text_semver_ops);  -- Operator classes for domains are ignored.
        create index on shuffled ((v::semver_parsed));
        _resorted := (select array_agg(v order by v::semver_parsed) from shuffled);
        assert _resorted = _presorted, format('%s ≠ %s', _resorted, _presorted);
    end;

    declare
        _shuffled text[] := array[
            '0.0.88'
            ,'1.0.0+stuff'
            ,'1.0.0'
            ,'1.0.0-a'
            ,'0.0.88+stuff'
            ,'0.0.88-alpha-2-a'
            ,'1.0.0-a.123'
        ];
    begin
        -- `min(semver)` and `max(semver)` are also possible:
        assert (select min(v::semver) from unnest(_shuffled) as v)::text = '0.0.88-alpha-2-a';
        assert (select max(v::semver) from unnest(_shuffled) as v)::text in ('1.0.0', '1.0.0+stuff');
    end;

    perform null::semver;

    -- There are some circumstances (like when parsing PGXN Version Ranges) where you may want to specify the
    -- operator dynamically rather that hardcode it in an expression; meet `semver_cmp(semver, semver, text)`:
    assert semver_cmp('0.4.1', '0.4.2', '<');
    assert semver_cmp('0.4.1', '0.4.2', '<=');
    assert semver_cmp('0.4.2', '0.4.2', '<=');
    assert semver_cmp('0.4.2', '0.4.2', '==');
    assert semver_cmp('0.4.2', '0.4.2', '=');
    assert semver_cmp('0.4.2', '0.4.2', '>=');
    assert semver_cmp('0.4.3', '0.4.2', '>=');
    assert semver_cmp('0.4.3', '0.4.2', '>');
    assert semver_cmp('0.4.3', '0.4.2', '<>');
    assert semver_cmp('0.4.2', '0.4.3', '<>');
    assert semver_cmp('0.4.3', '0.4.2', '!=');
    assert semver_cmp('0.4.2', '0.4.3', '!=');

    -- Speaking of PGXN `META.json` Version Ranges, you might want some help parsing them:
    assert (select array_agg(r.*) from meta_pgxn_version_range('1.9.8') r)
        = array[row('>='::text, '1.9.8'::text, false)];
    assert (select array_agg(r.*) from meta_pgxn_version_range('0') r)
        = array[row(null::text, null::text, true)];
    assert (select array_agg(r.*) from meta_pgxn_version_range('> 1.8.0, != 1.8.4-alpha, < 2.0.0') r)
        = array[
            row('>'::text,   '1.8.0'::text,       false)
            ,row('!='::text, '1.8.4-alpha'::text, false)
            ,row('<'::text,  '2.0.0'::text,       false)
        ];

    -- You can even check a PGXN `META.json` Version Ranges specification directly against a given version:
    assert meta_pgxn_version_range_cmp('6.7.200-alpha-2+build.3', '0');
    assert meta_pgxn_version_range_cmp('not-a-semver', '>= 1.0.0') is null;
    assert meta_pgxn_version_range_cmp('1.8.4', '> 1.8.0, != 1.8.4-alpha, < 2.0.0');
    assert not meta_pgxn_version_range_cmp('1.7.0', '> 1.8.0, != 1.8.4-alpha, < 2.0.0');
    assert not meta_pgxn_version_range_cmp('1.8.0', '> 1.8.0, != 1.8.4-alpha, < 2.0.0');
    assert not meta_pgxn_version_range_cmp('1.8.4-alpha', '> 1.8.0, != 1.8.4-alpha, < 2.0.0');
    assert not meta_pgxn_version_range_cmp('2.0.0', '> 1.8.0, != 1.8.4-alpha, < 2.0.0');

    raise transaction_rollback;
exception
    when transaction_rollback then
end;
$procedure$

Types

The following extra types have been defined besides the implicit composite types of the tables and views in this extension.

Domain: semver

CREATE DOMAIN semver AS text
  CHECK ((VALUE ~ semver_regexp(false)));

Domain: semver_prerelease

CREATE DOMAIN semver_prerelease AS text
  CHECK ((VALUE ~ semver_prerelease_regexp()));

Composite type: semver_parsed

This composite type can be used to access the individual parts of a semver.

A semantic version can take 4 forms. Depending on the form, the prerelease and/or build fields may be NLL. major, minor and patch can never be NULL for a valid semantic version.

# Form Example prerelease build
1. <major>.<minor>.<patch> 1.0.22 NULL NULL
2. <major>.<minor>.<patch>-<prerelease> 1.0.22-alpha2 NOT NULL NULL
3. <major>.<minor>.<patch>-<prerelease>+<build> 1.0.22-alpha2+arm NOT NULL NOT NULL
4. <major>.<minor>.<patch>+<build> 1.0.22+arm NULL NOT NULL

To unparse/serialize a semver_parsed composite values, cast it to semver or text.

CREATE TYPE semver_parsed AS (
  major text,
  minor text,
  patch text,
  prerelease text,
  build text
);

Authors and contributors

Colophon

This README.md for the pg_text_semver extension was automatically generated using the pg_readme PostgreSQL extension.

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