pg_xenophile 0.8.3

This Release
pg_xenophile 0.8.3
Date
Status
Stable
Other Releases
Abstract
More than the bare necessities for i18n.
Description
The pg_xenophile extension provides more than the bare necessities for working with different countries, currencies, languages, and translations.
Released By
bigsmoke
License
PostgreSQL
Resources
Special Files
Tags

Documentation

LICENCE
LICENCE

README


pg_extension_name: pg_xenophile pg_extension_version: 0.8.3 pg_readme_generated_at: 2024-07-28 14:02:15.366898+01 pg_readme_version: 0.6.6

pg_xenophile PostgreSQL extension

PGXN version

The pg_xenophile PostgreSQL extension bundles a bunch of data, data structures and routines that you often end up needing when working on an international project:

  • tables with the usual data that you need on countries, regions, languages and currencies;
  • functions to easily store and access translated strings; and
  • (trigger) functions to set up one-to-many translation tables with easy-to-use views on top.

It’s perfectly valid to just use pg_xenophile as a repository for up-to-date lists of countries and languages and such. But, the extension becomes especially worthwhile if you want some comfort on top of the common many-to-one translation-table pattern.

All your ethnocentrism are belong to us.

Using pg_xenophile

To use the list of countries (from the country table) or languages (from the lang table, just use them. And don’t be afraid of using the natural keys in your foreign keys! If you’ve been told to fear them, you will soon be attached to the convenience of not needing to join to know what a foreign key value means.

If you want a translatable table, you have to register the base table with the l10n_table meta table. See the l10n_table documentation in the reference for details. From the l10n_table documentation, you should also be able to learn how to work with the lang_l10n, lang_l10n_en, country_l10n and country_l10n_en tables and views that are manintained via the triggers on this meta table.

Extension-specific settings

| Extenion-hooked setting name | app.-hooked setting name | Default setting value | | –––––––––––––––– | ––––––––––––––––––– | —————————–– | | pg_xenophile.base_lang_code | app.settings.i18n.base_lang_code | 'en'::xeno.lang_code_alpha2 | | pg_xenophile.user_lang_code | app.settings.i18n.user_lang_code | 'en'::xeno.lang_code_alpha2 | | pg_xenophile.target_lang_codes | app.settings.i18n.target_lang_codes | '{}'::xeno.lang_code_alpha2[] |

The reason that each pg_xenophile setting has an equivalent setting with an app.settings.i18n prefix is because the powerful PostgREST can pass on such settings from environment variables: PGRST_APP_SETTINGS_* maps to app.settings.*. The app.settings.-prefixed settings take precedence over pg_xenophile.-prefixed settings.

Supporting only the app.settings.-prefixed settings would not be a good idea, because, in the circumstance that you would be running an extension called “app”, these settings might disappear, as per the relevant documentation:

[…] Such variables are treated as placeholders and have no function until the module that defines them is loaded. When an extension module is loaded, it will add its variable definitions and convert any placeholder values according to those definitions. If there are any unrecognized placeholders that begin with its extension name, warnings are issued and those placeholders are removed.

In addition to the above, the user_lang_code setting, if set as neither app.settings.i18n.user_lang_code and pg_xenophile.user_lang_code, falls back to the first two letters of the lc_messages setting.

Internal settings

| Setting name | Default setting value | | –––––––––––––––––––––– | —————————–– | | pg_xenophile.in_l10n_table_event_trigger | false | | pg_xenophile.in_l10n_table_row_trigger | false | | pg_xenophile.pg_restore_seems_active | false |

Object reference

Schema: xeno

pg_xenophile must be installed in the xeno schema. Hence, it is not relocatable.


The xeno schema belongs to the pg_xenophile extension.

Postgres (as of Pg 15) doesn’t allow one to specify a default schema, and do something like schema = 'xeno' combined with relocatable = true in the .control file. Therefore I decided to bluntly force the xeno schema name upon you, even though you might have very well (and justifyingly so) preferred something like i18n.

Tables

There are 11 tables that directly belong to the pg_xenophile extension.

Table: country

The ISO 3166-1 alpha-2, alpha3 and numeric country codes, as well as some auxillary information.

The country table has 6 attributes:

  1. country.country_code country_code_alpha2

    • NOT NULL
    • PRIMARY KEY (country_code)
  2. country.country_code_alpha3 text

    • CHECK (country_code_alpha3 ~ '^[A-Z]{3}$'::text)
    • UNIQUE (country_code_alpha3)
  3. country.country_code_num text

    • NOT NULL
    • CHECK (country_code_num ~ '^[0-9]{3}$'::text)
  4. country.calling_code integer

    • NOT NULL
  5. country.currency_code text

    • NOT NULL
    • DEFAULT 'EUR'::text
    • FOREIGN KEY (currency_code) REFERENCES currency(currency_code) ON UPDATE CASCADE ON DELETE RESTRICT
  6. country.country_belongs_to_pg_xenophile boolean

    pg_dump will ignore rows for which this is true.

    Make sure that this column is false when you add your own country. When your country is an official country according to the ISO standard, please make sure that it will be included upstream in pg_xenophile, so that all users of the extension can profit from up-to-date information.

    Please note, that you will run into problems with dump/restore when you add records to this table from within your own dependent extension set up scripts.

    • NOT NULL
    • DEFAULT false

Table: country_l10n

This table is managed by the pg_xenophile extension, which has delegated its creation to the maintain_l10n_objects trigger on the l10n_table table. To alter this table, just ALTER it as you normally would. The l10n_table__track_alter_table_events event trigger will detect such changes, as well as changes to the base table (country) referenced by the foreign key (that doubles as primary key) on country_l10n. When any ALTER TABLE country_l10n or ALTER TABLE country events are detected, l10n_table will be updated—the base_column_definitions, l10n_column_definitions and l10n_table_constraint_definitions columns—with the latest information from the pg_catalog.

These changes to l10n_table in turn trigger the maintain_l10n_objects trigger, which ensures that the language-specific convenience views that (left) join country to country_l10n are kept up-to-date with the columns in these tables.

To drop this table, either just DROP TABLE it (and the l10n_table__track_drop_table_events will take care of the book-keeping or delete its bookkeeping row from l10n_table.

The country_l10n table has 5 attributes:

  1. country_l10n.country_code country_code_alpha2

    • NOT NULL
    • FOREIGN KEY (country_code) REFERENCES country(country_code) ON UPDATE CASCADE ON DELETE CASCADE
  2. country_l10n.l10n_lang_code lang_code_alpha2

    • NOT NULL
    • FOREIGN KEY (l10n_lang_code) REFERENCES lang(lang_code) ON UPDATE RESTRICT ON DELETE RESTRICT
  3. country_l10n.l10n_columns_belong_to_extension_name name

  4. country_l10n.l10n_columns_belong_to_extension_version text

  5. country_l10n.name text

    • NOT NULL

Table: country_postal_code_pattern

The country_postal_code_pattern table has 8 attributes:

  1. country_postal_code_pattern.country_code country_code_alpha2

    • NOT NULL
    • PRIMARY KEY (country_code)
    • FOREIGN KEY (country_code) REFERENCES country(country_code)
  2. country_postal_code_pattern.valid_postal_code_regexp text

    • NOT NULL
  3. country_postal_code_pattern.clean_postal_code_regexp text

  4. country_postal_code_pattern.clean_postal_code_replace text

  5. country_postal_code_pattern.postal_code_example text

    • NOT NULL
  6. country_postal_code_pattern.postal_code_pattern_checked_on date

  7. country_postal_code_pattern.postal_code_pattern_information_source text

  8. country_postal_code_pattern.postal_code_pattern_belongs_to_pg_xenophile boolean

    Whether or not this pattern was shipped with the pg_xenophile extension.

    Make sure that, for your custom additions to this table, this column is false. Even better, though: contribute new or updated postal code patterns upstream, to pg_xenophile, so that everybody may profit from your knowledge.

    Please note, that you will run into problems with dump/restore when you add records to this table from within your own dependent extension set up scripts.

    • NOT NULL
    • DEFAULT false

Table: country_subdivision

  • subdivision_code ISO 3166-2 country subdivision code
  • country_code ISO 3166-1 country code
  • subdivision_postal_abbreviation_code the second part of country subdivision code

The country_subdivision table has 4 attributes:

  1. country_subdivision.subdivision_code country_subdivision_code

    • NOT NULL
    • PRIMARY KEY (subdivision_code)
  2. country_subdivision.country_code country_code_alpha2

    • NOT NULL
    • FOREIGN KEY (country_code) REFERENCES country(country_code)
  3. country_subdivision.subdivision_postal_abbreviation_code country_subdivision_postal_abbreviation_code

    • NOT NULL
  4. country_subdivision.subdivision_type_handle text

    • NOT NULL
    • FOREIGN KEY (subdivision_type_handle) REFERENCES country_subdivision_type(subdivision_type_handle)

Table: country_subdivision_l10n

This table is managed by the pg_xenophile extension, which has delegated its creation to the maintain_l10n_objects trigger on the l10n_table table. To alter this table, just ALTER it as you normally would. The l10n_table__track_alter_table_events event trigger will detect such changes, as well as changes to the base table (country_subdivision) referenced by the foreign key (that doubles as primary key) on country_subdivision_l10n. When any ALTER TABLE country_subdivision_l10n or ALTER TABLE country_subdivision events are detected, l10n_table will be updated—the base_column_definitions, l10n_column_definitions and l10n_table_constraint_definitions columns—with the latest information from the pg_catalog.

These changes to l10n_table in turn trigger the maintain_l10n_objects trigger, which ensures that the language-specific convenience views that (left) join country_subdivision to country_subdivision_l10n are kept up-to-date with the columns in these tables.

To drop this table, either just DROP TABLE it (and the l10n_table__track_drop_table_events will take care of the book-keeping or delete its bookkeeping row from l10n_table.

The country_subdivision_l10n table has 5 attributes:

  1. country_subdivision_l10n.subdivision_code country_subdivision_code

    • NOT NULL
    • FOREIGN KEY (subdivision_code) REFERENCES country_subdivision(subdivision_code) ON UPDATE CASCADE ON DELETE CASCADE
  2. country_subdivision_l10n.l10n_lang_code lang_code_alpha2

    • NOT NULL
    • FOREIGN KEY (l10n_lang_code) REFERENCES lang(lang_code) ON UPDATE RESTRICT ON DELETE RESTRICT
  3. country_subdivision_l10n.l10n_columns_belong_to_extension_name name

  4. country_subdivision_l10n.l10n_columns_belong_to_extension_version text

  5. country_subdivision_l10n.name text

    • NOT NULL

Table: country_subdivision_type

The handle for the type of entity a subdivision is an identifier for the subdivision type, fe ‘state’, ‘district’ etc.

The country_subdivision_type table has 1 attributes:

  1. country_subdivision_type.subdivision_type_handle text

    • NOT NULL
    • PRIMARY KEY (subdivision_type_handle)

Table: currency

The currency table contains the currencies known to pg_xenophile.

The currency table has 5 attributes:

  1. currency.currency_code currency_code

    currency_code is a 3-letter ISO 4217 currency code.

    • NOT NULL
    • PRIMARY KEY (currency_code)
  2. currency.currency_code_num text

    currency_code is the numeric 3-digit ISO 4217 currency code.

    • NOT NULL
    • CHECK (currency_code_num ~ '^[0-9]{3}$'::text)
    • UNIQUE (currency_code_num)
  3. currency.currency_symbol text

    • NOT NULL
    • CHECK (length(currency_symbol) = 1)
  4. currency.decimal_digits integer

    • NOT NULL
    • DEFAULT 2
  5. currency.currency_belongs_to_pg_xenophile boolean

    Does this currency belong to the pg_xenophile extension or not.

    If NOT currency_belongs_to_pg_xenophile, it is considered a custom currency inserted by the extension user rather than the extension developer. Instead (or in addition) of adding such custom rows, please feel free to submit patches with all the currencies that you wish for pg_xenophile to embrace.

    • NOT NULL
    • DEFAULT false

Table: eu_country

The eu_country table has 3 attributes:

  1. eu_country.country_code country_code_alpha2

    • NOT NULL
    • PRIMARY KEY (country_code)
    • FOREIGN KEY (country_code) REFERENCES country(country_code)
  2. eu_country.eu_membership_checked_on date

  3. eu_country.eu_country_belongs_to_pg_xenophile boolean

    • NOT NULL
    • DEFAULT false

Table: l10n_table

The l10n_table table is meant to keep track and manage all the _l10n-suffixed tables.

By inserting a row in this table, with just the details of the base table, a many-to-one l10n table called <base_table_name>_l10n will be created by the maintain_l10n_objects trigger. This trigger will also take care of creating the <base_table_name>_l10n_<base_lang_code> view as well as one such view for all the target_lang_codes. These views combine the columns of the base table with the columns of the l10n table, filtered by the language code specific to that particular view.

One of the reasons to manage this through a table rather than through a stored procedure is that a list of such enhanced l10n tables needs to be kept by pg_xenophile anyway: in the likely case that updates necessitate the upgrading of (the views and/or triggers around) these tables, the extension update script will know where to find everything.

The l10n_table table has 12 attributes:

  1. l10n_table.schema_name name

    • NOT NULL
    • DEFAULT CURRENT_SCHEMA
  2. l10n_table.base_table_name name

    • NOT NULL
  3. l10n_table.base_table_regclass regclass

    The OID of the base table.

    Because regclass is used for this column’s type, rather than the ‘raw’ oid type, its text representation dumped by pg_dump will be the (schema-qualified) table name rather than the OID number.

    That the canonical string representation of regclass guarantees pg_dump/pg_restore consistency is verified by the make test_dump_restore target.

    • NOT NULL
    • PRIMARY KEY (base_table_regclass)
  4. l10n_table.base_column_definitions text[]

    • NOT NULL
  5. l10n_table.l10n_table_name name

    • NOT NULL
  6. l10n_table.l10n_table_regclass regclass

    The OID of the l10n table.

    Because regclass is used for this column’s type, rather than the ‘raw’ oid type, its text representation dumped by pg_dump will be the (schema-qualified) table name rather than the OID number.

    That the canonical string representation of regclass guarantees pg_dump/pg_restore consistency is verified by the make test_dump_restore target.

    • NOT NULL
    • UNIQUE (l10n_table_regclass)
  7. l10n_table.l10n_column_definitions text[]

    • NOT NULL
  8. l10n_table.l10n_table_constraint_definitions text[]

    • NOT NULL
    • DEFAULT ARRAY[]::text[]
  9. l10n_table.base_lang_code lang_code_alpha2

    • NOT NULL
    • DEFAULT pg_xenophile_base_lang_code()
  10. l10n_table.target_lang_codes lang_code_alpha2[]

  • NOT NULL
  • DEFAULT pg_xenophile_target_lang_codes()
  1. l10n_table.l10n_table_belongs_to_extension_name name

This column must be NOT NULL if the l10n table is created through extension setup scripts and its row in the meta table must thus be omitted from pg_dump.

If l10n_table_belongs_to_extension_name IS NOT NULL, then the created localization (l10n) table will be managed (and thus recreated during a restore) by the named extension’s setup/upgrade script. That is not the same as saying that the l10n table’s rows will belong to pg_xenophile. To determine the latter, a l10n_columns_belong_to_extension_name column will be added to the l10n table if the l10n_table__maintain_l10n_objects() trigger function finds l10n_table_belongs_to_extension_name IS NOT NULL on insert.

Only developers of this or dependent extensions need to worry about these booleans. For users, the default of false assures that they will lose none of their precious data.

  1. l10n_table.l10n_table_belongs_to_extension_version text

Table: lang

The lang table has 2 attributes:

  1. lang.lang_code lang_code_alpha2

    ISO 639-1 two-letter (lowercase) language code.

    • NOT NULL
    • PRIMARY KEY (lang_code)
  2. lang.lang_belongs_to_pg_xenophile boolean

    pg_dump will ignore rows for which this is true.

    Make sure that this column is false when you add your own language. When your language is an official language according to the ISO standard, please make sure that it will be included upstream in pg_xenophile, so that all users of the extension can profit from up-to-date information.

    Please note, that you will run into problems with dump/restore when you add records to this table from within your own dependent extension set up scripts.

    • NOT NULL
    • DEFAULT false

Table: lang_l10n

This table is managed by the pg_xenophile extension, which has delegated its creation to the maintain_l10n_objects trigger on the l10n_table table. To alter this table, just ALTER it as you normally would. The l10n_table__track_alter_table_events event trigger will detect such changes, as well as changes to the base table (lang) referenced by the foreign key (that doubles as primary key) on lang_l10n. When any ALTER TABLE lang_l10n or ALTER TABLE lang events are detected, l10n_table will be updated—the base_column_definitions, l10n_column_definitions and l10n_table_constraint_definitions columns—with the latest information from the pg_catalog.

These changes to l10n_table in turn trigger the maintain_l10n_objects trigger, which ensures that the language-specific convenience views that (left) join lang to lang_l10n are kept up-to-date with the columns in these tables.

To drop this table, either just DROP TABLE it (and the l10n_table__track_drop_table_events will take care of the book-keeping or delete its bookkeeping row from l10n_table.

The lang_l10n table has 5 attributes:

  1. lang_l10n.lang_code lang_code_alpha2

    • NOT NULL
    • FOREIGN KEY (lang_code) REFERENCES lang(lang_code) ON UPDATE CASCADE ON DELETE CASCADE
  2. lang_l10n.l10n_lang_code lang_code_alpha2

    • NOT NULL
    • FOREIGN KEY (l10n_lang_code) REFERENCES lang(lang_code) ON UPDATE RESTRICT ON DELETE RESTRICT
  3. lang_l10n.l10n_columns_belong_to_extension_name name

  4. lang_l10n.l10n_columns_belong_to_extension_version text

  5. lang_l10n.name text

    • NOT NULL

Views

View: lang_l10n_en

 SELECT lang.lang_code, lang.lang_belongs_to_pg_xenophile,
    lang_l10n.l10n_lang_code, lang_l10n.l10n_columns_belong_to_extension_name,
    lang_l10n.l10n_columns_belong_to_extension_version, lang_l10n.name
   FROM lang
     LEFT JOIN lang_l10n ON lang.lang_code::text = lang_l10n.lang_code::text AND lang_l10n.l10n_lang_code::text = 'en'::text;

View: country_l10n_en

 SELECT country.country_code, country.country_code_alpha3,
    country.country_code_num, country.calling_code, country.currency_code,
    country.country_belongs_to_pg_xenophile, country_l10n.l10n_lang_code,
    country_l10n.l10n_columns_belong_to_extension_name,
    country_l10n.l10n_columns_belong_to_extension_version, country_l10n.name
   FROM country
     LEFT JOIN country_l10n ON country.country_code::text = country_l10n.country_code::text AND country_l10n.l10n_lang_code::text = 'en'::text;

View: country_subdivision_l10n_en

 SELECT country_subdivision.subdivision_code, country_subdivision.country_code,
    country_subdivision.subdivision_postal_abbreviation_code,
    country_subdivision.subdivision_type_handle,
    country_subdivision_l10n.l10n_lang_code,
    country_subdivision_l10n.l10n_columns_belong_to_extension_name,
    country_subdivision_l10n.l10n_columns_belong_to_extension_version,
    country_subdivision_l10n.name
   FROM country_subdivision
     LEFT JOIN country_subdivision_l10n ON country_subdivision.subdivision_code::text = country_subdivision_l10n.subdivision_code::text AND country_subdivision_l10n.l10n_lang_code::text = 'en'::text;

Routines

Procedure: create_l10n_view (name, name, name, lang_code_alpha2, boolean)

Create a language code-suffixed view for a given translated table.

The reason that create_l10n_view() is a separate routine and not part of the l10n_table__maintain_l10n_objects() trigger function is that you may have a requirement to not make l10n views for each of a l10n table’s target languages and instead prefer to create temporary views on an as-needed basis (by passing the temp$ => true parameter).

Procedure arguments:

| Arg. # | Arg. mode | Argument name | Argument type | Default expression | | —— | ––––– | —————————————————————– | –––––––––––––––––––––––––––––––––– | —————–– | | $1 | IN | table_schema$ | name | | | $2 | IN | base_table$ | name | | | $3 | IN | l10n_table$ | name | | | $4 | IN | lang_code$ | lang_code_alpha2 | | | $5 | IN | temp$ | boolean | false |

Procedure-local settings:

  • SET search_path TO xeno, public, pg_temp

Function: fkey_guard (regclass, name, anyelement)

Function arguments:

| Arg. # | Arg. mode | Argument name | Argument type | Default expression | | —— | ––––– | —————————————————————– | –––––––––––––––––––––––––––––––––– | —————–– | | $1 | IN | foreign_table$ | regclass | | | $2 | IN | fkey_column$ | name | | | $3 | IN | fkey_value$ | anyelement | |

Function return type: anyelement

Function attributes: STABLE, RETURNS NULL ON NULL INPUT, PARALLEL SAFE

Function: l10n_table__maintain_l10n_objects()

The l10n_table__maintain_l10n_objects() trigger function is meant to actuate changes to the l10_table to the actual l10n tables and views tracked by that meta table.

Function return type: trigger

Function-local settings:

  • SET search_path TO xeno, public, pg_temp
  • SET pg_xenophile.in_l10n_table_row_trigger TO true

Function: l10n_table__track_alter_table_events()

Function return type: event_trigger

Function attributes: SECURITY DEFINER

Function-local settings:

  • SET search_path TO xeno, public, pg_temp
  • SET pg_xenophile.in_l10n_table_event_trigger TO true

Function: l10n_table__track_drop_table_events()

Function return type: event_trigger

Function attributes: SECURITY DEFINER

Function-local settings:

  • SET search_path TO xeno, public, pg_temp
  • SET pg_xenophile.in_l10n_table_event_trigger TO true

Function: l10n_table_with_fresh_ddl (l10n_table)

Return the given l10n_table record, refreshed with data from the current schema.

Function arguments:

| Arg. # | Arg. mode | Argument name | Argument type | Default expression | | —— | ––––– | —————————————————————– | –––––––––––––––––––––––––––––––––– | —————–– | | $1 | INOUT | | l10n_table | |

Function return type: l10n_table

Function attributes: STABLE, PARALLEL SAFE

Function: pg_xenophile_base_lang_code()

Function return type: lang_code_alpha2

Function attributes: STABLE, LEAKPROOF

Function-local settings:

  • SET pg_readme.include_this_routine_definition TO true
  • SET search_path TO xeno, public, pg_temp
CREATE OR REPLACE FUNCTION xeno.pg_xenophile_base_lang_code()
 RETURNS lang_code_alpha2
 LANGUAGE sql
 STABLE LEAKPROOF
 SET "pg_readme.include_this_routine_definition" TO 'true'
 SET search_path TO 'xeno', 'public', 'pg_temp'
RETURN (COALESCE(current_setting('app.settings.i18n.base_lang_code'::text, true), current_setting('pg_xenophile.base_lang_code'::text, true), 'en'::text))::lang_code_alpha2

Function: pg_xenophile_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_xenophile can be found on PGXN: https://pgxn.org/dist/pg_xenophile/

Function return type: jsonb

Function attributes: STABLE

Function: pg_xenophile_readme()

Generates a README in Markdown format using the amazing power of the pg_readme extension.

Temporarily installs pg_readme if it is not already installed in the current database.

Function return type: text

Function-local settings:

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

Function: pg_xenophile_target_lang_codes()

Function return type: lang_code_alpha2[]

Function attributes: STABLE, LEAKPROOF

Function-local settings:

  • SET pg_readme.include_this_routine_definition TO true
  • SET search_path TO xeno, public, pg_temp
CREATE OR REPLACE FUNCTION xeno.pg_xenophile_target_lang_codes()
 RETURNS lang_code_alpha2[]
 LANGUAGE sql
 STABLE LEAKPROOF
 SET "pg_readme.include_this_routine_definition" TO 'true'
 SET search_path TO 'xeno', 'public', 'pg_temp'
RETURN (COALESCE(current_setting('app.settings.i18n.target_lang_codes'::text, true), current_setting('pg_xenophile.target_lang_codes'::text, true), '{}'::text))::lang_code_alpha2[]

Function: pg_xenophile_user_lang_code()

Function return type: lang_code_alpha2

Function attributes: STABLE, LEAKPROOF

Function-local settings:

  • SET pg_readme.include_this_routine_definition TO true
  • SET search_path TO xeno, public, pg_temp
CREATE OR REPLACE FUNCTION xeno.pg_xenophile_user_lang_code()
 RETURNS lang_code_alpha2
 LANGUAGE sql
 STABLE LEAKPROOF
 SET "pg_readme.include_this_routine_definition" TO 'true'
 SET search_path TO 'xeno', 'public', 'pg_temp'
RETURN (COALESCE(current_setting('app.settings.i18n.user_lang_code'::text, true), current_setting('pg_xenophile.user_lang_code'::text, true), regexp_replace(current_setting('lc_messages'::text), '^([a-z]{2}).*$'::text, ''::text), 'en'::text))::lang_code_alpha2

Function: set_installed_extension_version_from_name()

Sets the installed extension version string in the column named in the second argument for the extension named in the second argument.

See the test__set_installed_extension_version_from_name() test procedure for a working example of this trigger function.

This function was lifted from the pg_utility_trigger_functions extension version. 1.4.0, by means of copy-paste to keep the number of inter-extension dependencies to a minimum.

Function return type: trigger

Function-local settings:

  • SET search_path TO xeno, public, pg_temp

Procedure: test_dump_restore__l10n_table (text)

This procedure is to be called by the test_dump_restore.sh and test_dump_restore.sql companion scripts, once before pg_dump (with test_stage$ = 'pre-dump' argument) and once after pg_restore (with the test_stage$ = 'post-restore').

Procedure arguments:

| Arg. # | Arg. mode | Argument name | Argument type | Default expression | | —— | ––––– | —————————————————————– | –––––––––––––––––––––––––––––––––– | —————–– | | $1 | IN | test_stage$ | text | |

Procedure-local settings:

  • SET search_path TO xeno, public, pg_temp
  • SET plpgsql.check_asserts TO true
CREATE OR REPLACE PROCEDURE xeno.test_dump_restore__l10n_table(IN "test_stage$" text)
 LANGUAGE plpgsql
 SET search_path TO 'xeno', 'public', 'pg_temp'
 SET "plpgsql.check_asserts" TO 'true'
AS $procedure$
declare
    _en_expected record;
    _nl_expected record;
    _pt_expected record;
    _es_expected record;
    _en_actual record;
    _nl_actual record;
    _pt_actual record;
    _es_actual record;
begin
    assert test_stage$ in ('pre-dump', 'post-restore');

    if test_stage$ = 'pre-dump' then
        -- Create the table that will be translated.
        create table test_uni (
            uni_abbr text
                primary key
        );

        insert into l10n_table
            (base_table_name, l10n_column_definitions, base_lang_code, target_lang_codes)
        values (
            'test_uni'
            ,array['name TEXT NOT NULL']
            ,'en'::lang_code_alpha2
            ,array['nl', 'fr']::lang_code_alpha2[]
        );

        assert to_regclass('test_uni_l10n') is not null,
            'The `_l10n` table should have been created as result of the preceding INSERT into the meta table.';
    end if;

    -- Set up the expected data, now that we for sure have the `test_uni_l10n_*` types,
    -- regardless of `test_stage$`.
    _en_expected := row('AX-UNI', 'en', 'Axe University')::test_uni_l10n_en;
    _nl_expected := row('AX-UNI', 'nl', 'Bijl Universiteit')::test_uni_l10n_nl;

    if test_stage$ = 'pre-dump' then
        insert into test_uni_l10n_en
            (uni_abbr, name)
        values
            (_en_expected.uni_abbr, _en_expected.name)
        returning
            *
        into
            _en_actual
        ;
        update
            test_uni_l10n_nl
        set
            name = _nl_expected.name
        where
            uni_abbr = _en_expected.uni_abbr
        returning
            *
        into
            _nl_actual
        ;
    elsif test_stage$ = 'post-restore' then
        select * into _en_actual from test_uni_l10n_en where uni_abbr = _en_expected.uni_abbr;
        select * into _nl_actual from test_uni_l10n_nl where uni_abbr = _nl_expected.uni_abbr;
    end if;

    assert _en_expected = _en_actual;
    assert _nl_expected = _nl_actual;

    --
    -- Go test a dependent extension (that has its own `l10n_table`) now…
    --

    if test_stage$ = 'pre-dump' then
        create extension l10n_table_dependent_extension;
    end if;

    _pt_expected := row(
        '👋'
        ,10
        ,false
        ,'pt'
        ,null
        ,null
        ,'tchau'
    )::subextension_tbl_l10n_pt;
    _es_expected := row(
        '👋'
        ,10
        ,false
        ,'es'
        ,null
        ,null
        ,'adiós'
    )::subextension_tbl_l10n_es;

    if test_stage$ = 'pre-dump' then
        insert into subextension_tbl_l10n_pt
            (natural_key, base_tbl_col, localized_text)
        values
            (_pt_expected.natural_key, _pt_expected.base_tbl_col, _pt_expected.localized_text)
        returning
            *
        into
            _pt_actual
        ;
        update
            subextension_tbl_l10n_es
        set
            localized_text = _es_expected.localized_text
        where
            natural_key = _es_expected.natural_key
        returning
            *
        into
            _es_actual
        ;
    elsif test_stage$ = 'post-restore' then
        select * into _pt_actual from subextension_tbl_l10n_pt where natural_key = _pt_expected.natural_key;
        select * into _es_actual from subextension_tbl_l10n_es where natural_key = _es_expected.natural_key;
    end if;

    assert _pt_actual = _pt_expected,
        format('%s != %s', _pt_actual, _pt_expected);
    assert _es_actual = _es_expected,
        format('%s != %s', _es_actual, _es_expected);

    --
    -- Test with the dependent subextension and a Portuguese row that has been inserted during installation…
    --

    _pt_expected := row(
        '👍'
        ,null
        ,true
        ,'pt'
        ,'l10n_table_dependent_extension'
        ,'forever'  -- Yes, this is a version string.
        ,'bem'
    )::subextension_tbl_l10n_pt;
    _es_expected := row(
        '👍'
        ,null
        ,true
        ,'es'
        ,null
        ,null
        ,'buen'
    )::subextension_tbl_l10n_es;

    if test_stage$ = 'pre-dump' then
        select * into _pt_actual from subextension_tbl_l10n_pt where natural_key = _pt_expected.natural_key;
        update
            subextension_tbl_l10n_es
        set
            localized_text = _es_expected.localized_text
        where
            natural_key = _es_expected.natural_key
        returning
            *
        into
            _es_actual
        ;
    elsif test_stage$ = 'post-restore' then
        select * into _pt_actual from subextension_tbl_l10n_pt where natural_key = _pt_expected.natural_key;
        select * into _es_actual from subextension_tbl_l10n_es where natural_key = _es_expected.natural_key;
    end if;

    assert _pt_actual = _pt_expected,
        format('%s != %s', _pt_actual, _pt_expected);
    assert _es_actual = _es_expected,
        format('%s != %s', _es_actual, _es_expected);
end;
$procedure$

Procedure: test__l10n_table()

Procedure-local settings:

  • SET search_path TO xeno, public, pg_temp
  • SET client_min_messages TO WARNING
  • SET plpgsql.check_asserts TO true
  • SET pg_readme.include_this_routine_definition TO true
CREATE OR REPLACE PROCEDURE xeno.test__l10n_table()
 LANGUAGE plpgsql
 SET search_path TO 'xeno', 'public', 'pg_temp'
 SET client_min_messages TO 'WARNING'
 SET "plpgsql.check_asserts" TO 'true'
 SET "pg_readme.include_this_routine_definition" TO 'true'
AS $procedure$
declare
    _row record;
    _l10n_table l10n_table;
begin
    -- Create the table that will be translated.
    create table test_uni (
        id bigint
            primary key
            generated always as identity
        ,uni_abbr text
            not null
            unique
        -- We need to have more than one non-PK column, to ensure that we're hitting the requirement to agg.
        -- Also, let's put a space in the column name, so that we're testing proper quoting as well.
        ,"student rating" bigint
            default 5
    );

    <<with_redundant_target_lang>>
    begin
        -- This tests that the trigger(s) on `l10n_table` tries to create the `_l10n_nl`-suffixed view
        -- only once and doesn't crash because of trying to create it twice.
        insert into l10n_table
            (base_table_name, l10n_column_definitions, base_lang_code, target_lang_codes)
        values (
            'test_uni'
            ,array['name TEXT NOT NULL', '"description (short)" TEXT NOT NULL']
            ,'nl'::lang_code_alpha2  -- Apologies for the Dutch East India Company mentality.
            ,array['nl']::lang_code_alpha2[]
        );
        raise transaction_rollback;
    exception
        when transaction_rollback then
    end with_redundant_target_lang;

    -- Register `test_uni` with the meta table, to activate all the l10n magic.
    insert into l10n_table
        (base_table_name, l10n_column_definitions, base_lang_code, target_lang_codes)
    values (
        'test_uni'
        ,array['name TEXT NOT NULL', '"description (short)" TEXT NOT NULL']
        ,'nl'::lang_code_alpha2  -- Apologies for the Dutch East India Company mentality.
        ,array['en', 'fr']::lang_code_alpha2[]
    );

    assert to_regclass('test_uni_l10n') is not null,
        'The `_l10n` table should have been created as result of the preceding INSERT into the meta table.';

    assert (
            select
                array_agg(pg_class.relname order by pg_class.relname)::name[]
            from
                pg_catalog.pg_class
            where
                pg_class.relkind = 'v'
                and pg_class.relnamespace = current_schema::regnamespace
                and pg_class.relname like 'test\_uni\_l10n\___'
        ) = array['test_uni_l10n_en', 'test_uni_l10n_fr', 'test_uni_l10n_nl']::name[]
        ,'3 `_l10n_<lang_code>`-suffixed views should have been created, one for the base language'
            || ' and 2 for the target languages.';

    <<upsert_into_l10n_lang_view>>
    declare
        _nl_expected record := row(
            1, 'AX-UNI', 5, 'nl', 'Bijl Universiteit', 'De trainingsleider in bijlonderhoud en gebruik'
        )::test_uni_l10n_nl;
        _en_expected record := row(
            1, 'AX-UNI', 5, 'en', 'Axe University', 'The leader in axe maintenance and usage training'
        )::test_uni_l10n_en;
    begin
        insert into test_uni_l10n_nl
            (uni_abbr, name, "description (short)")
        values
            (_nl_expected.uni_abbr, _nl_expected.name, _nl_expected."description (short)")
        returning
            *
        into
            _row
        ;

        assert _row = _nl_expected, format(
            'The `RETURNING` clause did not return the data as inserted; %s ≠ %s'
            ,_row, _nl_expected
        );

        assert _nl_expected = (select row(tbl.*)::test_uni_l10n_nl from test_uni_l10n_nl as tbl),
            'The `RETURNING` clause should have returned the same row data as this separate `SELECT`.';

        assert exists(select from test_uni_l10n_en where id = _nl_expected.id),
            'Even though the row for English doesn''t exist in `test_uni_l10n` yet, it should exist in the'
            ' `test_l10n_en` view, with NULL values for all the l10n columns.';

        update
            test_uni_l10n_en
        set
            "name" = _en_expected."name"
            ,"description (short)" = _en_expected."description (short)"
        where
            id = _nl_expected.id
        returning
            *
        into
            _row
        ;

        assert found, 'The `UPDATE` should have found a row to update in the `test_uni_l10n_en` view.';

        assert _row = _en_expected,
            format('%s ≠ %s; the `RETURNING` clause did not return the data as upserted.', _row, _en_expected);

        assert _en_expected = (select row(tbl.*)::test_uni_l10n_en from test_uni_l10n_en as tbl),
            'The `RETURNING` clause should have returned the same row data as this separate `SELECT`.';
    end upsert_into_l10n_lang_view;

    <<try_to_override_generated_pk>>
    declare
        _expected_id bigint := currval('test_uni_id_seq') + 1;
        _nl_expected record := row(
            _expected_id, 'SIMP-UNI', 2, 'nl', 'Simpschool', 'Simpen voor Elon en Jeff'
        )::test_uni_l10n_nl;
    begin
        insert into test_uni_l10n_nl
            (id, uni_abbr, "student rating", name, "description (short)")
        values (
            _nl_expected.id
            ,_nl_expected.uni_abbr
            ,_nl_expected."student rating"
            ,_nl_expected.name
            ,_nl_expected."description (short)"
        )
        returning
            *
        into
            _row
        ;

        raise assert_failure using
            message = 'It should not be possible to explicitly specify a PK value on insert'
                'if that PK is `GENERATED ALWAYS`.';
    exception
        when generated_always then
    end try_to_override_generated_pk;

    <<insert_instead_of_update_on_missing_l10n_record>>
    declare
        _expected_id bigint := currval('test_uni_id_seq') + 1;
        _nl_expected record := row(
            _expected_id, 'PO-UNI', 7, 'nl', 'Poep-Universiteit', 'De Beste Plek om Te Leren Legen'
        )::test_uni_l10n_nl;
        _en_expected record := row(
            _expected_id, 'PO-UNI', 7, 'en', 'Pooversity', 'The Best Place To Empty Yourself'
        )::test_uni_l10n_nl;
    begin
        insert into test_uni_l10n_nl
            (uni_abbr, "student rating", name, "description (short)")
        values (
            _nl_expected.uni_abbr
            ,_nl_expected."student rating"
            ,_nl_expected.name
            ,_nl_expected."description (short)"
        )
        returning
            *
        into
            _row
        ;

        -- Test that the trigger `test_uni_l10n_en` does an INSERT instead of an UPDATE if no row for this
        -- PK + lang_code combo exists yet in `test_uni_l10n`.
        update
            test_uni_l10n_en
        set
            uni_abbr = _en_expected.uni_abbr
            ,name = _en_expected.name
            ,"description (short)" = _en_expected."description (short)"
        where
            id = _en_expected.id
        returning
            *
        into
            _row
        ;

        assert _row = _en_expected, format('%s ≠ %s', _row, _en_expected);
    end insert_instead_of_update_on_missing_l10n_record;

    <<delete_via_l10n_view>>
    declare
        _expected_id bigint := currval('test_uni_id_seq') + 1;
        _fr_expected record := row(
            _expected_id, 'MOI-UNI', null, 'fr', 'Moiversitee', 'La Premier Bla'
        )::test_uni_l10n_fr;
    begin
        insert into test_uni_l10n_fr
            (uni_abbr, name, "description (short)")
        values
            (_fr_expected.uni_abbr, _fr_expected.name, _fr_expected."description (short)")
        returning
            *
        into
            _row
        ;
        delete from test_uni_l10n_fr where id = _row.id;
        assert found;
        assert not exists (select from test_uni where id = _row.id),
            'The base table record should have been deleted.';
        assert not exists (
                select from test_uni_l10n where id = _row.id and l10n_lang_code = _row.l10n_lang_code
            )
            ,'The l10n record should have been deleted, via the `ON DELETE CASCADE` to the base table.';
    end delete_via_l10n_view;

    <<trigger_alter_table_events>>
    begin
        alter table test_uni_l10n
            add description2 text;

        update test_uni_l10n
            set description2 = 'Something to satisfy NOT NULL';  -- Because we want to make it NOT NULL.

        alter table test_uni_l10n
            alter column description2 set not null;

        select * into _l10n_table from l10n_table where base_table_name = 'test_uni';

        assert _l10n_table.l10n_column_definitions[3] = 'description2 text NOT NULL',
            'The `l10n_table__track_alter_table_events` event trigger should have updated the list of l10n'
            ' columns.';

        assert exists(
                select
                from    pg_attribute
                where   attrelid = 'test_uni_l10n_fr'::regclass
                        and attname = 'description2'
            ), 'The `description2` column should have been added to the view.';

        alter table test_uni_l10n
            drop column description2
            cascade;

        select * into _l10n_table from l10n_table where base_table_name = 'test_uni';

        assert array_length(_l10n_table.l10n_column_definitions, 1) = 2,
            'The dropped column should have been removed from the `l10n_table` meta table.';

        assert not exists(
                select
                from    pg_attribute
                where   attrelid = 'test_uni_l10n_nl'::regclass
                        and attname = 'description2'
            ), 'The `description2` column should have disappeared from the views.';

        alter table test_uni
            add non_l10n_col int
                not null
                default 6;

        select * into _l10n_table from l10n_table where base_table_name = 'test_uni';

        assert _l10n_table.base_column_definitions[4] = 'non_l10n_col integer NOT NULL DEFAULT 6',
            'The `l10n_table__track_alter_table_events` event trigger should have updated the list of base'
            ' columns.';

        assert (select non_l10n_col from test_uni_l10n_nl where id = 2) = 6;

        alter table test_uni
            drop column non_l10n_col
            cascade;

        assert not exists(
                select
                from    pg_attribute
                where   attrelid = 'test_uni_l10n_nl'::regclass
                        and attname = 'non_l10n_col'
            ), 'The `non_l10n_col` column should have disappeared from the views.';

        <<add_base_column_with_default_value>>
        declare
            _nl_expected record;
        begin
            alter table test_uni
                add column base_col_with_default text
                    not null
                    default 'I am default.';

            alter table test_uni_l10n
                add column localized_image text
                    not null
                    default 'fallback.png';

            select * into _l10n_table from l10n_table where base_table_name = 'test_uni';

            assert _l10n_table.base_column_definitions[4]
                    = 'base_col_with_default text NOT NULL DEFAULT ''I am default.''::text',
                format(
                    'The `l10n_table__track_alter_table_events` event trigger should have updated the list of'
                    ' base columns; base_column_definitions = ''%s'''
                    ,_l10n_table.base_column_definitions
                );

            assert _l10n_table.l10n_column_definitions[3]
                    = 'localized_image text NOT NULL DEFAULT ''fallback.png''::text',
                format(
                    'The `l10n_table__track_alter_table_events` event trigger should have updated the list of'
                    ' l10n columns; l10n_column_definitions = ''%s'''
                    ,_l10n_table.l10n_column_definitions
                );

            -- Now, let's test how the defaults behave on insert…

            _nl_expected := row(
                1, 'HOF', 5, 'I am default.', 'nl', 'Wim Hof', 'De Ijsman', 'fallback.png'
            )::test_uni_l10n_nl;

            insert into test_uni_l10n_nl
                (uni_abbr, name, "description (short)")
            values
                (_nl_expected.uni_abbr, _nl_expected.name, _nl_expected."description (short)")
            returning
                *
            into
                _row
            ;

            assert _row.base_col_with_default = _nl_expected.base_col_with_default,
                'Default should have propegated from the base table to view.';
            assert _row.localized_image = _nl_expected.localized_image,
                'Default should have propegated from the l10n table to view.';
        end add_base_column_with_default_value;

        <<l10n_table_rename_attempt>>
        begin
            alter table test_uni_l10n rename to test_university_l10n;
            raise assert_failure using
                message = 'Directly renaming the l10n table should be impossible.';
        exception
            when integrity_constraint_violation then
        end l10n_table_rename_attempt;

        <<base_table_rename>>
        begin
            alter table test_uni rename to test_university;
        end base_table_rename;

        <<drop_base_table>>
        begin
            drop table test_university cascade;

            assert not exists (select from l10n_table where base_table_name = 'test_university');

            raise transaction_rollback;  -- I could have used any error code, but this one seemed to fit best.
        exception
            when transaction_rollback then
        end drop_base_table;
    end trigger_alter_table_events;

    -- DELETE-ing the meta info for our l10n table should cascade cleanly, without crashing.
    delete from l10n_table where base_table_regclass = 'test_university'::regclass;

    assert to_regclass('test_university_l10n') is null,
        'The actual `_l10n` table should have been removed when deleting the meta row from `l10n_table`.';

    <<insert_natural_key>>
    declare
        _expected record;
    begin
        -- Let's make a table with a natural primary key that is _not_ `GENERATED ALWAYS`.
        create table test_species (
            scientific_name text
                primary key
            -- Just so you know: without the `year_first_described` column, the `INSERT INTO l10n_table`
            -- would not trigger a certain bug, so please do not allow regressions to occur by removing
            -- this column.
            ,year_first_described int
        );

        -- Register `test_species` with the meta table, to activate all the l10n magic.
        insert into l10n_table
            (base_table_name, l10n_column_definitions, base_lang_code)
        values
            ('test_species' ,'{common_name TEXT}' ,'en')
        ;

        insert into test_species_l10n_en
            (scientific_name, common_name, year_first_described)
        values
            ('Taraxacum officinale', 'common dandelion', 1753)
        ;

        <<insert_duplicate_natural_key>>
        begin
            insert into test_species_l10n_en
                (scientific_name, common_name)
            values
                ('Taraxacum officinale', 'uncommon dandelion')
            ;
            raise assert_failure using message = 'Duplicating a primary key shouldn''t have been possible.';
        exception
            when unique_violation then
        end insert_duplicate_natural_key;
    end insert_natural_key;

    raise transaction_rollback;  -- I could have used any error code, but this one seemed to fit best.
exception
    when transaction_rollback then
end;
$procedure$

Function: updatable_l10n_view()

Function return type: trigger

Function-local settings:

  • SET search_path TO xeno, public, pg_temp

Types

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

Domain: currency_code

Using this domain instead of its underlying text type ensures that only uppercase, 3-letter currency codes are allowed. It does not enforce that the currency_code exists in the currency table.

CREATE DOMAIN currency_code AS text
  CHECK ((VALUE ~ '^[A-Z]{3}$'::text));

Domain: country_code_alpha2

Using this domain instead of its underlying text type ensures that only 2-letter, uppercase country codes are allowed.

CREATE DOMAIN country_code_alpha2 AS text
  CHECK ((VALUE ~ '^[A-Z]{2}$'::text));

Domain: country_subdivision_code

Using this domain instead of its underlying text type ensures that only ISO 3166-2 country subdivision codes are allowed with first 2 alpha2 characters, followed by a dash and 1 to 3 alphanumeric characters. For example, ‘AB-A2B’ would be allowed, as well as ‘AB-1’.

CREATE DOMAIN country_subdivision_code AS text
  CHECK ((VALUE ~ '^[A-Z]{2}-[A-Z0-9]{1,3}$'::text));

Domain: country_subdivision_postal_abbreviation_code

Using this domain instead of its underlying text type ensures that only country subdivision postal abbreviation codes with 1 to 3 alphanumeric characters are allowed. This follows the format of the second section of ISO 3166-2 subdivision codes.

CREATE DOMAIN country_subdivision_postal_abbreviation_code AS text
  CHECK ((VALUE ~ '^[A-Z0-9]{1,3}$'::text));

Domain: lang_code_alpha2

ISO 639-1 two-letter (lowercase) language code.

CREATE DOMAIN lang_code_alpha2 AS text
  CHECK ((VALUE ~ '^[a-z]{2}$'::text));

Domain: lang_code_alhpa3

ISO 639-2/T, ISO 639-2/B, or ISO 639-3 (lowercase) language code.

CREATE DOMAIN lang_code_alhpa3 AS text
  CHECK ((VALUE ~ '^[a-z]{3}$'::text));

Missing/planned/possible features

  • Currently (as of version 0.7.4), only ISO 639-1 (2-letter) language codes are supported. It would be nice if at least ISO 639-2 3-letter code would be supported, and possibly ISO 639-2/T and 639-2/B as well. Even better would be if BPC 47 / RFC 5646 was supported. If I (Rowan) do change the primary language identification method, I will try to do so before pg_xenophile 1.0 is released, because introducing breaking changes post-1.0 is assholish towards the couple of users that might by then already depend on this extension.

Extension authors and contributors

Colophon

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