Module: Sequel::Postgres::DatabaseMethods

Includes:

UnmodifiedIdentifiers::DatabaseMethods

Included in:

JDBC::Postgres::DatabaseMethods, Database

Defined in:

lib/sequel/adapters/shared/postgres.rb

Constant Summary

PREPARED_ARG_PLACEHOLDER =

LiteralString.new('$').freeze

FOREIGN_KEY_LIST_ON_DELETE_MAP =

{'a'=>:no_action, 'r'=>:restrict, 'c'=>:cascade, 'n'=>:set_null, 'd'=>:set_default}.freeze

ON_COMMIT =

{:drop => 'DROP', :delete_rows => 'DELETE ROWS', :preserve_rows => 'PRESERVE ROWS'}.freeze

SELECT_CUSTOM_SEQUENCE_SQL =

SQL fragment for custom sequences (ones not created by serial primary key), Returning the schema and literal form of the sequence name, by parsing the column defaults table.

(<<-end_sql
  SELECT name.nspname AS "schema",
      CASE
      WHEN split_part(def.adsrc, '''', 2) ~ '.' THEN
        substr(split_part(def.adsrc, '''', 2),
               strpos(split_part(def.adsrc, '''', 2), '.')+1)
      ELSE split_part(def.adsrc, '''', 2)
    END AS "sequence"
  FROM pg_class t
  JOIN pg_namespace  name ON (t.relnamespace = name.oid)
  JOIN pg_attribute  attr ON (t.oid = attrelid)
  JOIN pg_attrdef    def  ON (adrelid = attrelid AND adnum = attnum)
  JOIN pg_constraint cons ON (conrelid = adrelid AND adnum = conkey[1])
  WHERE cons.contype = 'p'
    AND def.adsrc ~* 'nextval'
end_sql
).strip.gsub(/\s+/, ' ').freeze

SELECT_PK_SQL =

SQL fragment for determining primary key column for the given table. Only returns the first primary key if the table has a composite primary key.

(<<-end_sql
  SELECT pg_attribute.attname AS pk
  FROM pg_class, pg_attribute, pg_index, pg_namespace
  WHERE pg_class.oid = pg_attribute.attrelid
    AND pg_class.relnamespace  = pg_namespace.oid
    AND pg_class.oid = pg_index.indrelid
    AND pg_index.indkey[0] = pg_attribute.attnum
    AND pg_index.indisprimary = 't'
end_sql
).strip.gsub(/\s+/, ' ').freeze

SELECT_SERIAL_SEQUENCE_SQL =

SQL fragment for getting sequence associated with table’s primary key, assuming it was a serial primary key column.

(<<-end_sql
  SELECT  name.nspname AS "schema", seq.relname AS "sequence"
  FROM pg_class seq, pg_attribute attr, pg_depend dep,
    pg_namespace name, pg_constraint cons, pg_class t
  WHERE seq.oid = dep.objid
    AND seq.relnamespace  = name.oid
    AND seq.relkind = 'S'
    AND attr.attrelid = dep.refobjid
    AND attr.attnum = dep.refobjsubid
    AND attr.attrelid = cons.conrelid
    AND attr.attnum = cons.conkey[1]
    AND attr.attrelid = t.oid
    AND cons.contype = 'p'
end_sql
).strip.gsub(/\s+/, ' ').freeze

Instance Attribute Summary

• #conversion_procs ⇒ Object readonly

  A hash of conversion procs, keyed by type integer (oid) and having callable values for the conversion proc for that type.

Instance Method Summary

• #add_conversion_proc(oid, callable = Proc.new) ⇒ Object

  Set a conversion proc for the given oid.

• #add_named_conversion_proc(name, &block) ⇒ Object

  Add a conversion proc for a named type, using the given block.

• #commit_prepared_transaction(transaction_id, opts = OPTS) ⇒ Object
• #create_function(name, definition, opts = OPTS) ⇒ Object

  Creates the function in the database.

• #create_language(name, opts = OPTS) ⇒ Object

  Create the procedural language in the database.

• #create_schema(name, opts = OPTS) ⇒ Object

  Create a schema in the database.

• #create_trigger(table, name, function, opts = OPTS) ⇒ Object

  Create a trigger in the database.

• #database_type ⇒ Object
• #do(code, opts = OPTS) ⇒ Object

  Use PostgreSQL’s DO syntax to execute an anonymous code block.

• #drop_function(name, opts = OPTS) ⇒ Object

  Drops the function from the database.

• #drop_language(name, opts = OPTS) ⇒ Object

  Drops a procedural language from the database.

• #drop_schema(name, opts = OPTS) ⇒ Object

  Drops a schema from the database.

• #drop_trigger(table, name, opts = OPTS) ⇒ Object

  Drops a trigger from the database.

• #foreign_key_list(table, opts = OPTS) ⇒ Object

  Return full foreign key information using the pg system tables, including :name, :on_delete, :on_update, and :deferrable entries in the hashes.

• #freeze ⇒ Object
• #indexes(table, opts = OPTS) ⇒ Object

  Use the pg_* system tables to determine indexes on a table.

• #locks ⇒ Object

  Dataset containing all current database locks.

• #notify(channel, opts = OPTS) ⇒ Object

  Notifies the given channel.

• #primary_key(table, opts = OPTS) ⇒ Object

  Return primary key for the given table.

• #primary_key_sequence(table, opts = OPTS) ⇒ Object

  Return the sequence providing the default for the primary key for the given table.

• #refresh_view(name, opts = OPTS) ⇒ Object

  Refresh the materialized view with the given name.

• #reset_primary_key_sequence(table) ⇒ Object

  Reset the primary key sequence for the given table, basing it on the maximum current value of the table’s primary key.

• #rollback_prepared_transaction(transaction_id, opts = OPTS) ⇒ Object
• #serial_primary_key_options ⇒ Object

  PostgreSQL uses SERIAL psuedo-type instead of AUTOINCREMENT for managing incrementing primary keys.

• #server_version(server = nil) ⇒ Object

  The version of the PostgreSQL server, used for determining capability.

• #supports_create_table_if_not_exists? ⇒ Boolean

  PostgreSQL supports CREATE TABLE IF NOT EXISTS on 9.1+.

• #supports_deferrable_constraints? ⇒ Boolean

  PostgreSQL 9.0+ supports some types of deferrable constraints beyond foreign key constraints.

• #supports_deferrable_foreign_key_constraints? ⇒ Boolean

  PostgreSQL supports deferrable foreign key constraints.

• #supports_drop_table_if_exists? ⇒ Boolean

  PostgreSQL supports DROP TABLE IF EXISTS.

• #supports_partial_indexes? ⇒ Boolean

  PostgreSQL supports partial indexes.

• #supports_prepared_transactions? ⇒ Boolean

  PostgreSQL supports prepared transactions (two-phase commit) if max_prepared_transactions is greater than 0.

• #supports_savepoints? ⇒ Boolean

  PostgreSQL supports savepoints.

• #supports_transaction_isolation_levels? ⇒ Boolean

  PostgreSQL supports transaction isolation levels.

• #supports_transactional_ddl? ⇒ Boolean

  PostgreSQL supports transaction DDL statements.

• #supports_trigger_conditions? ⇒ Boolean

  PostgreSQL 9.0+ supports trigger conditions.

• #tables(opts = OPTS, &block) ⇒ Object

  Array of symbols specifying table names in the current database.

• #type_supported?(type) ⇒ Boolean

  Check whether the given type name string/symbol (e.g. :hstore) is supported by the database.

• #values(v) ⇒ Object

  Creates a dataset that uses the VALUES clause:.

• #views(opts = OPTS) ⇒ Object

  Array of symbols specifying view names in the current database.

Instance Attribute Details

#conversion_procs ⇒ Object (readonly)

A hash of conversion procs, keyed by type integer (oid) and having callable values for the conversion proc for that type.

# File 'lib/sequel/adapters/shared/postgres.rb', line 194

def conversion_procs
  @conversion_procs
end

Instance Method Details

#add_conversion_proc(oid, callable = Proc.new) ⇒ Object

Set a conversion proc for the given oid. The callable can be passed either as a argument or a block.

# File 'lib/sequel/adapters/shared/postgres.rb', line 198

def add_conversion_proc(oid, callable=Proc.new)
  conversion_procs[oid] = callable
end

#add_named_conversion_proc(name, &block) ⇒ Object

Add a conversion proc for a named type, using the given block. This should be used for types without fixed OIDs, which includes all types that are not included in a default PostgreSQL installation.

# File 'lib/sequel/adapters/shared/postgres.rb', line 205

def add_named_conversion_proc(name, &block)
  name = name.to_s if name.is_a?(Symbol)
  unless oid = from(:pg_type).where(:typtype=>['b', 'e'], :typname=>name.to_s).get(:oid)
    raise Error, "No matching type in pg_type for #{name.inspect}"
  end
  add_conversion_proc(oid, block)
end

#commit_prepared_transaction(transaction_id, opts = OPTS) ⇒ Object

# File 'lib/sequel/adapters/shared/postgres.rb', line 213

def commit_prepared_transaction(transaction_id, opts=OPTS)
  run("COMMIT PREPARED #{literal(transaction_id)}", opts)
end

#create_function(name, definition, opts = OPTS) ⇒ Object

Creates the function in the database. Arguments:

name

name of the function to create

definition

string definition of the function, or object file for a dynamically loaded C function.

opts

options hash:

:args

function arguments, can be either a symbol or string specifying a type or an array of 1-3 elements:

1

argument data type

2

argument name

3

argument mode (e.g. in, out, inout)

:behavior

Should be IMMUTABLE, STABLE, or VOLATILE. PostgreSQL assumes VOLATILE by default.

:cost

The estimated cost of the function, used by the query planner.

:language

The language the function uses. SQL is the default.

:link_symbol

For a dynamically loaded see function, the function’s link symbol if different from the definition argument.

:returns

The data type returned by the function. If you are using OUT or INOUT argument modes, this is ignored. Otherwise, if this is not specified, void is used by default to specify the function is not supposed to return a value.

:rows

The estimated number of rows the function will return. Only use if the function returns SETOF something.

:security_definer

Makes the privileges of the function the same as the privileges of the user who defined the function instead of the privileges of the user who runs the function. There are security implications when doing this, see the PostgreSQL documentation.

:set

Configuration variables to set while the function is being run, can be a hash or an array of two pairs. search_path is often used here if :security_definer is used.

:strict

Makes the function return NULL when any argument is NULL.

# File 'lib/sequel/adapters/shared/postgres.rb', line 237

def create_function(name, definition, opts=OPTS)
  self << create_function_sql(name, definition, opts)
end

#create_language(name, opts = OPTS) ⇒ Object

Create the procedural language in the database. Arguments:

name

Name of the procedural language (e.g. plpgsql)

opts

options hash:

:handler

The name of a previously registered function used as a call handler for this language.

:replace

Replace the installed language if it already exists (on PostgreSQL 9.0+).

:trusted

Marks the language being created as trusted, allowing unprivileged users to create functions using this language.

:validator

The name of previously registered function used as a validator of functions defined in this language.

# File 'lib/sequel/adapters/shared/postgres.rb', line 248

def create_language(name, opts=OPTS)
  self << create_language_sql(name, opts)
end

#create_schema(name, opts = OPTS) ⇒ Object

Create a schema in the database. Arguments:

name

Name of the schema (e.g. admin)

opts

options hash:

:if_not_exists

Don’t raise an error if the schema already exists (PostgreSQL 9.3+)

:owner

The owner to set for the schema (defaults to current user if not specified)

# File 'lib/sequel/adapters/shared/postgres.rb', line 257

def create_schema(name, opts=OPTS)
  self << create_schema_sql(name, opts)
end

#create_trigger(table, name, function, opts = OPTS) ⇒ Object

Create a trigger in the database. Arguments:

table

the table on which this trigger operates

name

the name of this trigger

function

the function to call for this trigger, which should return type trigger.

opts

options hash:

:after

Calls the trigger after execution instead of before.

:args

An argument or array of arguments to pass to the function.

:each_row

Calls the trigger for each row instead of for each statement.

:events

Can be :insert, :update, :delete, or an array of any of those. Calls the trigger whenever that type of statement is used. By default, the trigger is called for insert, update, or delete.

:when

A filter to use for the trigger

# File 'lib/sequel/adapters/shared/postgres.rb', line 272

def create_trigger(table, name, function, opts=OPTS)
  self << create_trigger_sql(table, name, function, opts)
end

#database_type ⇒ Object

# File 'lib/sequel/adapters/shared/postgres.rb', line 276

def database_type
  :postgres
end

#do(code, opts = OPTS) ⇒ Object

Use PostgreSQL’s DO syntax to execute an anonymous code block. The code should be the literal code string to use in the underlying procedural language. Options:

:language

The procedural language the code is written in. The PostgreSQL default is plpgsql. Can be specified as a string or a symbol.

# File 'lib/sequel/adapters/shared/postgres.rb', line 285

def do(code, opts=OPTS)
  language = opts[:language]
  run "DO #{"LANGUAGE #{literal(language.to_s)} " if language}#{literal(code)}"
end

#drop_function(name, opts = OPTS) ⇒ Object

Drops the function from the database. Arguments:

name

name of the function to drop

opts

options hash:

:args

The arguments for the function. See create_function_sql.

:cascade

Drop other objects depending on this function.

:if_exists

Don’t raise an error if the function doesn’t exist.

# File 'lib/sequel/adapters/shared/postgres.rb', line 296

def drop_function(name, opts=OPTS)
  self << drop_function_sql(name, opts)
end

#drop_language(name, opts = OPTS) ⇒ Object

Drops a procedural language from the database. Arguments:

name

name of the procedural language to drop

opts

options hash:

:cascade

Drop other objects depending on this function.

:if_exists

Don’t raise an error if the function doesn’t exist.

# File 'lib/sequel/adapters/shared/postgres.rb', line 305

def drop_language(name, opts=OPTS)
  self << drop_language_sql(name, opts)
end

#drop_schema(name, opts = OPTS) ⇒ Object

Drops a schema from the database. Arguments:

name

name of the schema to drop

opts

options hash:

:cascade

Drop all objects in this schema.

:if_exists

Don’t raise an error if the schema doesn’t exist.

# File 'lib/sequel/adapters/shared/postgres.rb', line 314

def drop_schema(name, opts=OPTS)
  self << drop_schema_sql(name, opts)
end

#drop_trigger(table, name, opts = OPTS) ⇒ Object

Drops a trigger from the database. Arguments:

table

table from which to drop the trigger

name

name of the trigger to drop

opts

options hash:

:cascade

Drop other objects depending on this function.

:if_exists

Don’t raise an error if the function doesn’t exist.

# File 'lib/sequel/adapters/shared/postgres.rb', line 324

def drop_trigger(table, name, opts=OPTS)
  self << drop_trigger_sql(table, name, opts)
end

#foreign_key_list(table, opts = OPTS) ⇒ Object

Return full foreign key information using the pg system tables, including :name, :on_delete, :on_update, and :deferrable entries in the hashes.

# File 'lib/sequel/adapters/shared/postgres.rb', line 330

def foreign_key_list(table, opts=OPTS)
  m = output_identifier_meth
  schema, _ = opts.fetch(:schema, schema_and_table(table))
  oid = regclass_oid(table)

  if server_version >= 90500
    cpos = Sequel.expr{array_position(co[:conkey], att[:attnum])}
    rpos = Sequel.expr{array_position(co[:confkey], att2[:attnum])}
  else
    range = 0...32
    cpos = Sequel.expr{SQL::CaseExpression.new(range.map{|x| [SQL::Subscript.new(co[:conkey], [x]), x]}, 32, att[:attnum])}
    rpos = Sequel.expr{SQL::CaseExpression.new(range.map{|x| [SQL::Subscript.new(co[:confkey], [x]), x]}, 32, att2[:attnum])}
  end

  ds = metadata_dataset.
    from{pg_constraint.as(:co)}.
    join(Sequel[:pg_class].as(:cl), :oid=>:conrelid).
    join(Sequel[:pg_attribute].as(:att), :attrelid=>:oid, :attnum=>SQL::Function.new(:ANY, Sequel[:co][:conkey])).
    join(Sequel[:pg_class].as(:cl2), :oid=>Sequel[:co][:confrelid]).
    join(Sequel[:pg_attribute].as(:att2), :attrelid=>:oid, :attnum=>SQL::Function.new(:ANY, Sequel[:co][:confkey])).
    order{[co[:conname], cpos]}.
    where{{
      cl[:relkind]=>'r',
      co[:contype]=>'f',
      cl[:oid]=>oid,
      cpos=>rpos
      }}.
    select{[
      co[:conname].as(:name),
      att[:attname].as(:column),
      co[:confupdtype].as(:on_update),
      co[:confdeltype].as(:on_delete),
      cl2[:relname].as(:table),
      att2[:attname].as(:refcolumn),
      SQL::BooleanExpression.new(:AND, co[:condeferrable], co[:condeferred]).as(:deferrable)
    ]}

  # If a schema is given, we only search in that schema, and the returned :table
  # entry is schema qualified as well.
  if schema
    ds = ds.join(Sequel[:pg_namespace].as(:nsp2), :oid=>Sequel[:cl2][:relnamespace]).
      select_append{nsp2[:nspname].as(:schema)}
  end

  h = {}
  fklod_map = FOREIGN_KEY_LIST_ON_DELETE_MAP 

  ds.each do |row|
    if r = h[row[:name]]
      r[:columns] << m.call(row[:column])
      r[:key] << m.call(row[:refcolumn])
    else
      h[row[:name]] = {
        :name=>m.call(row[:name]),
        :columns=>[m.call(row[:column])],
        :key=>[m.call(row[:refcolumn])],
        :on_update=>fklod_map[row[:on_update]],
        :on_delete=>fklod_map[row[:on_delete]],
        :deferrable=>row[:deferrable],
        :table=>schema ? SQL::QualifiedIdentifier.new(m.call(row[:schema]), m.call(row[:table])) : m.call(row[:table])
      }
    end
  end

  h.values
end

#freeze ⇒ Object

# File 'lib/sequel/adapters/shared/postgres.rb', line 397

def freeze
  server_version
  supports_prepared_transactions?
  @conversion_procs.freeze
  super
end

#indexes(table, opts = OPTS) ⇒ Object

Use the pg_* system tables to determine indexes on a table

# File 'lib/sequel/adapters/shared/postgres.rb', line 405

def indexes(table, opts=OPTS)
  m = output_identifier_meth
  oid = regclass_oid(table, opts)

  if server_version >= 90500
    order = [Sequel[:indc][:relname], Sequel.function(:array_position, Sequel[:ind][:indkey], Sequel[:att][:attnum])]
  else
    range = 0...32
    order = [Sequel[:indc][:relname], SQL::CaseExpression.new(range.map{|x| [SQL::Subscript.new(Sequel[:ind][:indkey], [x]), x]}, 32, Sequel[:att][:attnum])]
    attnums = range.map{|x| SQL::Subscript.new(Sequel[:ind][:indkey], [x])} unless server_version >= 80100 
  end

  attnums ||= SQL::Function.new(:ANY, Sequel[:ind][:indkey])

  ds = metadata_dataset.
    from{pg_class.as(:tab)}.
    join(Sequel[:pg_index].as(:ind), :indrelid=>:oid).
    join(Sequel[:pg_class].as(:indc), :oid=>:indexrelid).
    join(Sequel[:pg_attribute].as(:att), :attrelid=>Sequel[:tab][:oid], :attnum=>attnums).
    left_join(Sequel[:pg_constraint].as(:con), :conname=>Sequel[:indc][:relname]).
    where{{
      indc[:relkind]=>'i',
      ind[:indisprimary]=>false,
      :indexprs=>nil,
      :indpred=>nil,
      :indisvalid=>true,
      tab[:oid]=>oid}}.
    order(*order).
    select{[indc[:relname].as(:name), ind[:indisunique].as(:unique), att[:attname].as(:column), con[:condeferrable].as(:deferrable)]}

  ds = ds.where(:indisready=>true, :indcheckxmin=>false) if server_version >= 80300

  indexes = {}
  ds.each do |r|
    i = indexes[m.call(r[:name])] ||= {:columns=>[], :unique=>r[:unique], :deferrable=>r[:deferrable]}
    i[:columns] << m.call(r[:column])
  end
  indexes
end

#locks ⇒ Object

Dataset containing all current database locks

# File 'lib/sequel/adapters/shared/postgres.rb', line 446

def locks
  dataset.from(:pg_class).join(:pg_locks, :relation=>:relfilenode).select{[pg_class[:relname], Sequel::SQL::ColumnAll.new(:pg_locks)]}
end

#notify(channel, opts = OPTS) ⇒ Object

Notifies the given channel. See the PostgreSQL NOTIFY documentation. Options:

:payload

The payload string to use for the NOTIFY statement. Only supported in PostgreSQL 9.0+.

:server

The server to which to send the NOTIFY statement, if the sharding support is being used.

# File 'lib/sequel/adapters/shared/postgres.rb', line 456

def notify(channel, opts=OPTS)
  sql = String.new
  sql << "NOTIFY "
  dataset.send(:identifier_append, sql, channel)
  if payload = opts[:payload]
    sql << ", "
    dataset.literal_append(sql, payload.to_s)
  end
  execute_ddl(sql, opts)
end

#primary_key(table, opts = OPTS) ⇒ Object

Return primary key for the given table.

# File 'lib/sequel/adapters/shared/postgres.rb', line 468

def primary_key(table, opts=OPTS)
  quoted_table = quote_schema_table(table)
  Sequel.synchronize{return @primary_keys[quoted_table] if @primary_keys.has_key?(quoted_table)}
  sql = "#{SELECT_PK_SQL} AND pg_class.oid = #{literal(regclass_oid(table, opts))}"
  value = fetch(sql).single_value
  Sequel.synchronize{@primary_keys[quoted_table] = value}
end

#primary_key_sequence(table, opts = OPTS) ⇒ Object

Return the sequence providing the default for the primary key for the given table.

# File 'lib/sequel/adapters/shared/postgres.rb', line 477

def primary_key_sequence(table, opts=OPTS)
  quoted_table = quote_schema_table(table)
  Sequel.synchronize{return @primary_key_sequences[quoted_table] if @primary_key_sequences.has_key?(quoted_table)}
  sql = "#{SELECT_SERIAL_SEQUENCE_SQL} AND t.oid = #{literal(regclass_oid(table, opts))}"
  if pks = fetch(sql).single_record
    value = literal(SQL::QualifiedIdentifier.new(pks[:schema], pks[:sequence]))
    Sequel.synchronize{@primary_key_sequences[quoted_table] = value}
  else
    sql = "#{SELECT_CUSTOM_SEQUENCE_SQL} AND t.oid = #{literal(regclass_oid(table, opts))}"
    if pks = fetch(sql).single_record
      value = literal(SQL::QualifiedIdentifier.new(pks[:schema], LiteralString.new(pks[:sequence])))
      Sequel.synchronize{@primary_key_sequences[quoted_table] = value}
    end
  end
end

#refresh_view(name, opts = OPTS) ⇒ Object

Refresh the materialized view with the given name.

DB.refresh_view(:items_view)
# REFRESH MATERIALIZED VIEW items_view
DB.refresh_view(:items_view, :concurrently=>true)
# REFRESH MATERIALIZED VIEW CONCURRENTLY items_view

# File 'lib/sequel/adapters/shared/postgres.rb', line 499

def refresh_view(name, opts=OPTS)
  run "REFRESH MATERIALIZED VIEW#{' CONCURRENTLY' if opts[:concurrently]} #{quote_schema_table(name)}"
end

#reset_primary_key_sequence(table) ⇒ Object

Reset the primary key sequence for the given table, basing it on the maximum current value of the table’s primary key.

# File 'lib/sequel/adapters/shared/postgres.rb', line 505

def reset_primary_key_sequence(table)
  return unless seq = primary_key_sequence(table)
  pk = SQL::Identifier.new(primary_key(table))
  db = self
  seq_ds = db.from(LiteralString.new(seq))
  s, t = schema_and_table(table)
  table = Sequel.qualify(s, t) if s
  get{setval(seq, db[table].select{coalesce(max(pk)+seq_ds.select{:increment_by}, seq_ds.select(:min_value))}, false)}
end

#rollback_prepared_transaction(transaction_id, opts = OPTS) ⇒ Object

# File 'lib/sequel/adapters/shared/postgres.rb', line 515

def rollback_prepared_transaction(transaction_id, opts=OPTS)
  run("ROLLBACK PREPARED #{literal(transaction_id)}", opts)
end

#serial_primary_key_options ⇒ Object

PostgreSQL uses SERIAL psuedo-type instead of AUTOINCREMENT for managing incrementing primary keys.

# File 'lib/sequel/adapters/shared/postgres.rb', line 521

def serial_primary_key_options
  {:primary_key => true, :serial => true, :type=>Integer}
end

#server_version(server = nil) ⇒ Object

The version of the PostgreSQL server, used for determining capability.

# File 'lib/sequel/adapters/shared/postgres.rb', line 526

def server_version(server=nil)
  return @server_version if @server_version
  @server_version = synchronize(server) do |conn|
    (conn.server_version rescue nil) if conn.respond_to?(:server_version)
  end
  unless @server_version
    @server_version = if m = /PostgreSQL (\d+)\.(\d+)(?:(?:rc\d+)|\.(\d+))?/.match(fetch('SELECT version()').single_value)
      (m[1].to_i * 10000) + (m[2].to_i * 100) + m[3].to_i
    else
      0
    end
  end
  @server_version
end

#supports_create_table_if_not_exists? ⇒ Boolean

PostgreSQL supports CREATE TABLE IF NOT EXISTS on 9.1+

Returns:

• (Boolean)

# File 'lib/sequel/adapters/shared/postgres.rb', line 542

def supports_create_table_if_not_exists?
  server_version >= 90100
end

#supports_deferrable_constraints? ⇒ Boolean

PostgreSQL 9.0+ supports some types of deferrable constraints beyond foreign key constraints.

Returns:

• (Boolean)

# File 'lib/sequel/adapters/shared/postgres.rb', line 547

def supports_deferrable_constraints?
  server_version >= 90000
end

#supports_deferrable_foreign_key_constraints? ⇒ Boolean

PostgreSQL supports deferrable foreign key constraints.

Returns:

• (Boolean)

# File 'lib/sequel/adapters/shared/postgres.rb', line 552

def supports_deferrable_foreign_key_constraints?
  true
end

#supports_drop_table_if_exists? ⇒ Boolean

PostgreSQL supports DROP TABLE IF EXISTS

Returns:

• (Boolean)

# File 'lib/sequel/adapters/shared/postgres.rb', line 557

def supports_drop_table_if_exists?
  true
end

#supports_partial_indexes? ⇒ Boolean

PostgreSQL supports partial indexes.

Returns:

• (Boolean)

# File 'lib/sequel/adapters/shared/postgres.rb', line 562

def supports_partial_indexes?
  true
end

#supports_prepared_transactions? ⇒ Boolean

PostgreSQL supports prepared transactions (two-phase commit) if max_prepared_transactions is greater than 0.

Returns:

• (Boolean)

# File 'lib/sequel/adapters/shared/postgres.rb', line 573

def supports_prepared_transactions?
  return @supports_prepared_transactions if defined?(@supports_prepared_transactions)
  @supports_prepared_transactions = self['SHOW max_prepared_transactions'].get.to_i > 0
end

#supports_savepoints? ⇒ Boolean

PostgreSQL supports savepoints

Returns:

• (Boolean)

# File 'lib/sequel/adapters/shared/postgres.rb', line 579

def supports_savepoints?
  true
end

#supports_transaction_isolation_levels? ⇒ Boolean

PostgreSQL supports transaction isolation levels

Returns:

• (Boolean)

# File 'lib/sequel/adapters/shared/postgres.rb', line 584

def supports_transaction_isolation_levels?
  true
end

#supports_transactional_ddl? ⇒ Boolean

PostgreSQL supports transaction DDL statements.

Returns:

• (Boolean)

# File 'lib/sequel/adapters/shared/postgres.rb', line 589

def supports_transactional_ddl?
  true
end

#supports_trigger_conditions? ⇒ Boolean

PostgreSQL 9.0+ supports trigger conditions.

Returns:

• (Boolean)

# File 'lib/sequel/adapters/shared/postgres.rb', line 567

def supports_trigger_conditions?
  server_version >= 90000
end

#tables(opts = OPTS, &block) ⇒ Object

Array of symbols specifying table names in the current database. The dataset used is yielded to the block if one is provided, otherwise, an array of symbols of table names is returned.

Options:

:qualify

Return the tables as Sequel::SQL::QualifiedIdentifier instances, using the schema the table is located in as the qualifier.

:schema

The schema to search

:server

The server to use

# File 'lib/sequel/adapters/shared/postgres.rb', line 602

def tables(opts=OPTS, &block)
  pg_class_relname('r', opts, &block)
end

#type_supported?(type) ⇒ Boolean

Check whether the given type name string/symbol (e.g. :hstore) is supported by the database.

Returns:

• (Boolean)

# File 'lib/sequel/adapters/shared/postgres.rb', line 608

def type_supported?(type)
  Sequel.synchronize{return @supported_types[type] if @supported_types.has_key?(type)}
  supported = from(:pg_type).where(:typtype=>'b', :typname=>type.to_s).count > 0
  Sequel.synchronize{return @supported_types[type] = supported}
end

#values(v) ⇒ Object

Creates a dataset that uses the VALUES clause:

DB.values([[1, 2], [3, 4]])
# VALUES ((1, 2), (3, 4))

DB.values([[1, 2], [3, 4]]).order(:column2).limit(1, 1)
# VALUES ((1, 2), (3, 4)) ORDER BY column2 LIMIT 1 OFFSET 1

# File 'lib/sequel/adapters/shared/postgres.rb', line 621

def values(v)
  @default_dataset.clone(:values=>v)
end

#views(opts = OPTS) ⇒ Object

Array of symbols specifying view names in the current database.

Options:

:materialized

Return materialized views

:qualify

Return the views as Sequel::SQL::QualifiedIdentifier instances, using the schema the view is located in as the qualifier.

:schema

The schema to search

:server

The server to use

# File 'lib/sequel/adapters/shared/postgres.rb', line 633

def views(opts=OPTS)
  relkind = opts[:materialized] ? 'm' : 'v'
  pg_class_relname(relkind, opts)
end