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BEGIN TRANSACTION;
-- For PostgreSQL 9.1 upward, we should consider using enum types
-- instead of VARCHARs with CHECK constraints:
--
-- CREATE TYPE user_status AS
-- ENUM ('pending', 'approved', 'trusted', 'deferred', 'disabled', 'admin');
--
-- CREATE TYPE comment_status AS
-- ENUM ('pending', 'approved', 'trusted', 'deferred', 'spam', 'rejected');
--
-- CREATE TYPE text_format AS
-- ENUM ('html', 'text');
CREATE TABLE users(
id SERIAL NOT NULL,
name VARCHAR,
status VARCHAR NOT NULL,
email VARCHAR,
website VARCHAR,
PRIMARY KEY (id),
CHECK (status IN ('pending', 'approved', 'trusted', 'deferred', 'disabled',
'admin', 'visitor'))
);
CREATE TABLE passwords(
"user" INTEGER NOT NULL,
password VARCHAR NOT NULL,
PRIMARY KEY ("user", password),
FOREIGN KEY ("user") REFERENCES users
);
CREATE TABLE openids(
"user" INTEGER NOT NULL,
openid VARCHAR NOT NULL,
PRIMARY KEY ("user", openid),
FOREIGN KEY ("user") REFERENCES users
);
CREATE TABLE login_certificates(
"user" INTEGER NOT NULL,
certificate BYTEA NOT NULL,
PRIMARY KEY ("user", certificate),
FOREIGN KEY ("user") REFERENCES users
);
CREATE TABLE article_types(
id SERIAL NOT NULL,
name VARCHAR,
page_template VARCHAR,
PRIMARY KEY (id)
);
CREATE TABLE articles(
id SERIAL NOT NULL,
type INTEGER NOT NULL,
PRIMARY KEY (id),
FOREIGN KEY (type) REFERENCES article_types
);
CREATE TABLE article_aliases(
alias VARCHAR NOT NULL,
article INTEGER NOT NULL,
PRIMARY KEY (alias),
FOREIGN KEY (article) REFERENCES articles
);
CREATE TABLE comments(
id SERIAL NOT NULL,
article INTEGER NOT NULL,
global_id VARCHAR,
PRIMARY KEY (id),
FOREIGN KEY (article) REFERENCES articles
);
CREATE TABLE article_revisions(
id SERIAL NOT NULL,
article INTEGER NOT NULL,
date TIMESTAMP DEFAULT now(),
title VARCHAR NOT NULL,
content VARCHAR NOT NULL,
author INTEGER,
format VARCHAR NOT NULL,
status VARCHAR NOT NULL,
global_id VARCHAR,
PRIMARY KEY (id),
FOREIGN KEY (article) REFERENCES articles,
FOREIGN KEY (author) REFERENCES users,
CHECK (format IN ('html')),
CHECK (status IN ('draft', 'published', 'syndicated')),
UNIQUE (global_id)
);
CREATE TABLE article_revision_characteristics(
revision INTEGER NOT NULL,
characteristic VARCHAR NOT NULL,
value VARCHAR,
FOREIGN KEY (revision) REFERENCES article_revisions,
UNIQUE (revision, characteristic, value)
);
CREATE TABLE article_revision_parenthood(
parent INTEGER NOT NULL,
child INTEGER NOT NULL,
PRIMARY KEY (parent, child),
FOREIGN KEY (parent) REFERENCES article_revisions,
FOREIGN KEY (child) REFERENCES article_revisions
);
CREATE TABLE comment_revisions(
id SERIAL NOT NULL,
comment INTEGER NOT NULL,
date TIMESTAMP DEFAULT now(),
content VARCHAR NOT NULL,
author INTEGER,
submitter_ip INET,
submitter_user_agent VARCHAR,
format VARCHAR NOT NULL,
status VARCHAR NOT NULL,
article_revision INTEGER,
PRIMARY KEY (id),
FOREIGN KEY (comment) REFERENCES comments,
FOREIGN KEY (author) REFERENCES users,
CHECK (status IN ('pending', 'approved', 'trusted', 'deferred', 'spam',
'rejected')),
CHECK (format IN ('text'))
);
CREATE TABLE categories(
id SERIAL NOT NULL,
name VARCHAR NOT NULL,
PRIMARY KEY (id)
);
CREATE TABLE category_inclusions(
category INTEGER NOT NULL,
supercategory INTEGER NOT NULL,
PRIMARY KEY (category, supercategory),
FOREIGN KEY (category) REFERENCES categories,
FOREIGN KEY (supercategory) REFERENCES categories
);
CREATE TABLE article_category_memberships(
article INTEGER NOT NULL,
category VARCHAR NOT NULL,
PRIMARY KEY (article, category),
FOREIGN KEY (article) REFERENCES articles
);
CREATE TABLE user_permissions(
"user" INTEGER NOT NULL,
permission VARCHAR NOT NULL,
status BOOLEAN,
PRIMARY KEY ("user", permission),
FOREIGN KEY ("user") REFERENCES users
);
CREATE TABLE user_settings(
"user" INTEGER NOT NULL,
setting VARCHAR NOT NULL,
value VARCHAR,
PRIMARY KEY ("user", setting),
FOREIGN KEY ("user") REFERENCES users
);
----
CREATE TYPE characteristic AS (
characteristic VARCHAR,
value VARCHAR
);
CREATE TYPE characteristic_list AS (
characteristics characteristic[]
);
CREATE OR REPLACE FUNCTION article_revisions_for_characteristics_with_fixed_ones(
article INTEGER,
characteristics characteristic_list[],
fixed_characteristics characteristic_list
) RETURNS INTEGER[] AS $BODY$
DECLARE
query VARCHAR := $$SELECT id FROM article_revisions
WHERE article = $$
|| quote_literal(article) ||
$$ AND status IN ('published', 'syndicated')$$;
fchar RECORD;
revisions INTEGER[];
specific_revisions INTEGER[];
dummy INTEGER;
BEGIN
FOR fchar IN SELECT unnest(fixed_characteristics.characteristics) AS val LOOP
query := query || $$AND EXISTS
(SELECT 1
FROM article_revision_characteristics
WHERE revision = article_revisions.id
AND characteristic = $$ || quote_literal((fchar.val::characteristic).characteristic) || $$
AND value = $$ || quote_literal((fchar.val::characteristic).value) || $$)$$;
END LOOP;
query := query || $$ORDER BY date DESC$$;
EXECUTE ('SELECT array(' || query || ')') INTO revisions;
IF array_length(revisions, 1) > 0 THEN
IF array_length(characteristics, 1) > 0 THEN
FOR fchar IN SELECT unnest(characteristics[1].characteristics) AS val LOOP
specific_revisions := article_revisions_for_characteristics_with_fixed_ones(
article,
characteristics[2:array_upper(characteristics, 1)],
ROW(array_prepend(fchar.val, fixed_characteristics.characteristics))::characteristic_list
);
IF array_length(specific_revisions, 1) > 0 THEN
RETURN specific_revisions;
END IF;
END LOOP;
RETURN revisions;
ELSE
RETURN revisions;
END IF;
ELSE
RETURN ARRAY[]::INTEGER[];
END IF;
END
$BODY$ LANGUAGE plpgsql;
CREATE OR REPLACE FUNCTION article_revisions_for_characteristics(
article INTEGER,
characteristics characteristic_list[]
) RETURNS SETOF INTEGER AS $$
BEGIN
RETURN QUERY SELECT unnest(article_revisions_for_characteristics_with_fixed_ones(article, characteristics, ROW(ARRAY[]::characteristic[])::characteristic_list));
END
$$ LANGUAGE plpgsql;
-- Usage example:
-- SELECT article_revisions_for_characteristics(70, ARRAY[ROW(ARRAY[ROW('language', 'de')::characteristic])]::characteristic_list[]);
CREATE FUNCTION older_revision(a article_revisions, b article_revisions)
RETURNS article_revisions AS $$
BEGIN
IF a.date < b.date THEN
RETURN a;
ELSE
RETURN b;
END IF;
END
$$ LANGUAGE plpgsql;
CREATE AGGREGATE oldest_revision (article_revisions) (
SFUNC = older_revision,
STYPE = article_revisions
);
CREATE FUNCTION more_recent_revision(a article_revisions, b article_revisions)
RETURNS article_revisions AS $$
BEGIN
IF a.date > b.date THEN
RETURN a;
ELSE
RETURN b;
END IF;
END
$$ LANGUAGE plpgsql;
CREATE AGGREGATE most_recent_revision (article_revisions) (
SFUNC = more_recent_revision,
STYPE = article_revisions
);
COMMIT;
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