Class: ROM::SQL::Attribute

Inherits:

Attribute

• Object
• Attribute
• ROM::SQL::Attribute

Extended by:

Dry::Core::Cache

Defined in:

lib/rom/sql/attribute.rb,
lib/rom/sql/extensions/postgres/types/json.rb,
lib/rom/sql/extensions/postgres/types/array.rb,
lib/rom/sql/extensions/postgres/types/ltree.rb

Overview

Extended schema attributes tailored for SQL databases

Constant Summary

OPERATORS =

%i[>= <= > <].freeze

NONSTANDARD_EQUALITY_VALUES =

[true, false, nil].freeze

META_KEYS =

%i(index foreign_key target sql_expr qualified).freeze

QualifyError =

Error raised when an attribute cannot be qualified

Class.new(StandardError)

Class Method Summary

• .[](*args) ⇒ Object private

Instance Method Summary

• #! ⇒ Attribute

  Negate the attribute’s sql expression.

• #+(value) ⇒ SQL::Attribute<Types::LTree>

  Concatenate two LTree values Translates to ||.

• #=~(other) ⇒ Attribute

  Return a new attribute with an equality expression.

• #aliased(alias_name) ⇒ SQL::Attribute (also: #as)

  Return a new attribute with an alias.

• #any(value) ⇒ SQL::Attribute<Types::Bool>

  Check whether the array includes a value Translates to the ANY operator.

• #ascendant(value) ⇒ SQL::Attribute<Types::Bool>

  Check whether the LTree is a ascendant of the LTree value Translates to the @> operator.

• #canonical ⇒ Object

  Return a new attribute in its canonical form.

• #case(mapping) ⇒ SQL::Attribute

  Build a case expression based on attribute.

• #concat(other, sep = ' ') ⇒ SQL::Function

  Create a CONCAT function from the attribute.

• #contain(other) ⇒ SQL::Attribute<Types::Bool>

  Check whether the array includes another array Translates to the @> operator.

• #contain_ancestor(value) ⇒ SQL::Attribute<Types::PG::Bool>

  Does LTree array contain an ancestor of ltree Translates to @>.

• #contain_any_ltextquery(value) ⇒ SQL::Attribute<Types::Bool>

  Does LTree array contain any path matching ltxtquery Translates to @.

• #contain_ascendant(value) ⇒ SQL::Attribute<Types::Bool>

  Check whether the LTree is a ascendant of the LTree values Translates to the @> operator.

• #contain_descendant(value) ⇒ SQL::Attribute<Types::PG::Bool>

  Does LTree array contain an descendant of ltree Translates to <@.

• #contained_by(other) ⇒ SQL::Attribute<Types::Bool>

  Check whether the array is contained by another array Translates to the <@ operator.

• #delete(*path) ⇒ SQL::Attribute<Types::PG::JSONB>

  Deletes the specified value by key, index, or path Translates to - or #- depending on the number of arguments.

• #descendant(value) ⇒ SQL::Attribute<Types::Bool>

  Check whether the LTree is a descendant of the LTree value Translates to the <@ operator.

• #find_ancestor(value) ⇒ SQL::Attribute<Types::PG::LTree>

  Return first LTree array entry that is an ancestor of ltree, NULL if none Translates to ?@>.

• #find_descendant(value) ⇒ SQL::Attribute<Types::PG::LTree>

  Return first LTree array entry that is an descendant of ltree, NULL if none Translates to ?<@.

• #foreign_key ⇒ SQL::Attribute

  Return a new attribute marked as a FK.

• #func(&block) ⇒ SQL::Function

  Create a function DSL from the attribute.

• #get(idx) ⇒ SQL::Attribute

  Get element by index (PG uses 1-based indexing).

• #get_text(*path) ⇒ SQL::Attribute<Types::String>

  Extract the JSON value as text using at the specified path Translates to ->> or #>> depending on the number of arguments.

• #has_all_keys(*keys) ⇒ SQL::Attribute<Types::Bool>

  Does the JSON value have all the specified top-level keys Translates to ?&.

• #has_any_key(*keys) ⇒ SQL::Attribute<Types::Bool>

  Does the JSON value have any of the specified top-level keys Translates to ?|.

• #has_key(key) ⇒ SQL::Attribute<Types::Bool>

  Does the JSON value have the specified top-level key Translates to ?.

• #in(*args) ⇒ Object

  Return a boolean expression with an inclusion test.

• #indexed ⇒ Object

  Returns a new attribute marked as indexed.

• #indexed? ⇒ Boolean
• #is(other) ⇒ Object

  Return a boolean expression with an equality operator.

• #join(delimiter, null_repr) ⇒ SQL::Attribute<Types::String>

  Convert the array to a string by joining values with a delimiter (empty stirng by default) and optional filler for NULL values Translates to an array_to_string call.

• #joined ⇒ SQL::Attribute

  Return a new attribute marked as joined.

• #joined? ⇒ Boolean

  Return if an attribute was used in a join.

• #length ⇒ SQL::Attribute<Types::Integer>

  Return array size.

• #match(value) ⇒ SQL::Attribute<Types::Bool>

  Check whether the LTree match a lquery value Translates to the ~ operator.

• #match_any(value) ⇒ SQL::Attribute<Types::Bool>

  Check whether the LTree match any of the lquery values Translates to the ? operator.

• #match_any_lquery(value) ⇒ SQL::Attribute<Types::PG::LTree>

  Return first LTree array entry that matches lquery, NULL if none Translates to ?~.

• #match_any_ltextquery(value) ⇒ SQL::Attribute<Types::PG::LTree>

  Return first LTree array entry that matches ltextquery, NULL if none Translates to ?@.

• #match_ltextquery(value) ⇒ SQL::Attribute<Types::Bool>

  Check whether the LTree match a ltextquery Translates to the @ operator.

• #merge(value) ⇒ SQL::Attribute<Types::PG::JSONB>

  Concatenate two JSON values Translates to ||.

• #meta_options_ast ⇒ Object private
• #not(other) ⇒ Object

  Return a boolean expression with a negated equality operator.

• #overlaps(other) ⇒ SQL::Attribute<Types::Bool>

  Check whether the arrays have common values Translates to &&.

• #qualifiable? ⇒ Boolean

  Return if an attribute is qualifiable.

• #qualified(table_alias = nil) ⇒ SQL::Attribute

  Return a new attribute marked as qualified.

• #qualified? ⇒ Boolean

  Return if an attribute type is qualified.

• #remove_value(value) ⇒ SQL::Attribute<Types::PG::Array>

  Remove elements by value.

• #sql_literal(ds) ⇒ Object private

  Sequel calls this method to coerce an attribute into SQL string.

• #to_sql_name ⇒ Sequel::SQL::AliasedExpression, Sequel::SQL::Identifier private

  Sequel column representation.

• #to_sym ⇒ Symbol

  Return symbol representation of an attribute.

• #unwrap ⇒ Object private

  Removes metadata from the type.

• #value(value) ⇒ SQL::Attribute

  Wrap a value with the type, it allows using attribute and type specific methods on literals and things like this.

Dynamic Method Handling

This class handles dynamic methods through the method_missing method

#method_missing(meth, *args, &block) ⇒ Object (private)

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

Delegate to sql expression if it responds to a given method

# File 'lib/rom/sql/attribute.rb', line 380

def method_missing(meth, *args, &block)
  if OPERATORS.include?(meth)
    __cmp__(meth, args[0])
  elsif extensions.key?(meth)
    extensions[meth].(type, sql_expr, *args, &block)
  elsif sql_expr.respond_to?(meth)
    meta(sql_expr: sql_expr.__send__(meth, *args, &block))
  else
    super
  end
end

Class Method Details

.[](*args) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/rom/sql/attribute.rb', line 25

def self.[](*args)
  fetch_or_store(args) { new(*args) }
end

Instance Method Details

#! ⇒ Attribute

Negate the attribute’s sql expression

Examples:

users.where(!users[:id].is(1))

Returns:

• (Attribute)

# File 'lib/rom/sql/attribute.rb', line 215

def !
  ~self
end

#+(value) ⇒ SQL::Attribute<Types::LTree>

Concatenate two LTree values Translates to ||

Examples:

people.select { (ltree_tags + ROM::Types::Values::TreePath.new('Moscu')).as(:ltree_tags) }.where { name.is('Jade Doe') }
people.select { (ltree_tags + 'Moscu').as(:ltree_tags) }.where { name.is('Jade Doe') }

Parameters:

• keys (LTree, String)

Returns:

• (SQL::Attribute<Types::LTree>)

# File 'lib/rom/sql/extensions/postgres/types/json.rb', line 113

#=~(other) ⇒ Attribute

Return a new attribute with an equality expression

Examples:

users.where { email =~ 1 }

Returns:

• (Attribute)

# File 'lib/rom/sql/attribute.rb', line 189

def =~(other)
  meta(sql_expr: sql_expr =~ binary_operation_arg(other))
end

#aliased(alias_name) ⇒ SQL::Attribute Also known as: as

Return a new attribute with an alias

Examples:

users[:id].aliased(:user_id)

Returns:

• (SQL::Attribute)

# File 'lib/rom/sql/attribute.rb', line 37

def aliased(alias_name)
  super.with(name: name || alias_name).meta(
    sql_expr: sql_expr.as(alias_name)
  )
end

#any(value) ⇒ SQL::Attribute<Types::Bool>

Check whether the array includes a value Translates to the ANY operator

Parameters:

• value (Object)

Returns:

• (SQL::Attribute<Types::Bool>)

# File 'lib/rom/sql/extensions/postgres/types/array.rb', line 21

#ascendant(value) ⇒ SQL::Attribute<Types::Bool>

Check whether the LTree is a ascendant of the LTree value Translates to the @> operator

Examples:

people.select(:name).where { ltree_tags.ascendant('Bottom.Cities') }

Parameters:

• value (String)

Returns:

• (SQL::Attribute<Types::Bool>)

# File 'lib/rom/sql/extensions/postgres/types/ltree.rb', line 83

#canonical ⇒ Object

Return a new attribute in its canonical form

# File 'lib/rom/sql/attribute.rb', line 47

def canonical
  if aliased?
    with(alias: nil).meta(sql_expr: nil)
  else
    self
  end
end

#case(mapping) ⇒ SQL::Attribute

Build a case expression based on attribute. See SQL::Function#case when you don’t have a specific expression after the CASE keyword. Pass the :else keyword to provide the catch-all case, it’s mandatory because of the Sequel’s API used underneath.

Examples:

users.select_append { id.case(1 => `'first'`, else: `'other'`).as(:first_or_not) }

Parameters:

• mapping (Hash) —

  mapping between SQL expressions

Returns:

• (SQL::Attribute)

# File 'lib/rom/sql/attribute.rb', line 357

def case(mapping)
  mapping = mapping.dup
  otherwise = mapping.delete(:else) do
    raise ArgumentError, 'provide the default case using the :else keyword'
  end

  type = mapping.values[0].type

  Attribute[type].meta(sql_expr: ::Sequel.case(mapping, otherwise, self))
end

#concat(other, sep = ' ') ⇒ SQL::Function

Create a CONCAT function from the attribute

Examples:

with default separator (‘ ’)

users[:id].concat(users[:name])

with custom separator

users[:id].concat(users[:name], '-')

Parameters:

• other (SQL::Attribute)

Returns:

• (SQL::Function)

# File 'lib/rom/sql/attribute.rb', line 274

def concat(other, sep = ' ')
  Function.new(type).concat(self, sep, other)
end

#contain(other) ⇒ SQL::Attribute<Types::Bool>

Check whether the array includes another array Translates to the @> operator

Parameters:

• other (Array)

Returns:

• (SQL::Attribute<Types::Bool>)

# File 'lib/rom/sql/extensions/postgres/types/json.rb', line 2

#contain_ancestor(value) ⇒ SQL::Attribute<Types::PG::Bool>

Does LTree array contain an ancestor of ltree Translates to @>

Examples:

people.select(:name).where { parents_tags.contain_ancestor('Top.Building.EmpireState.381')}

Parameters:

• value (String)

Returns:

• (SQL::Attribute<Types::PG::Bool>)

# File 'lib/rom/sql/extensions/postgres/types/ltree.rb', line 123

#contain_any_ltextquery(value) ⇒ SQL::Attribute<Types::Bool>

Does LTree array contain any path matching ltxtquery Translates to @

Examples:

people.select(:name).where { parents_tags.contain_any_ltextquery('Parks')}

Parameters:

• value (String)

Returns:

• (SQL::Attribute<Types::Bool>)

# File 'lib/rom/sql/extensions/postgres/types/ltree.rb', line 110

#contain_ascendant(value) ⇒ SQL::Attribute<Types::Bool>

Check whether the LTree is a ascendant of the LTree values Translates to the @> operator

Examples:

people.select(:name).where { ltree_tags.contain_ascendant(['Bottom.Cities']) }
people.select(:name).where { ltree_tags.contain_ascendant('Bottom.Cities, Bottom.Parks') }

Parameters:

• value (Array<String>, String)

Returns:

• (SQL::Attribute<Types::Bool>)

# File 'lib/rom/sql/extensions/postgres/types/ltree.rb', line 69

#contain_descendant(value) ⇒ SQL::Attribute<Types::PG::Bool>

Does LTree array contain an descendant of ltree Translates to <@

Examples:

people.select(:name).where { parents_tags.contain_descendant('Top.Building.EmpireState.381')}

Parameters:

• value (String)

Returns:

• (SQL::Attribute<Types::PG::Bool>)

# File 'lib/rom/sql/extensions/postgres/types/ltree.rb', line 42

#contained_by(other) ⇒ SQL::Attribute<Types::Bool>

Check whether the array is contained by another array Translates to the <@ operator

Parameters:

• other (Array)

Returns:

• (SQL::Attribute<Types::Bool>)

# File 'lib/rom/sql/extensions/postgres/types/json.rb', line 17

#delete(*path) ⇒ SQL::Attribute<Types::PG::JSONB>

Deletes the specified value by key, index, or path Translates to - or #- depending on the number of arguments

Examples:

people.select { data.delete('age').as(:data_without_age) }
people.select { fields.delete(0).as(:fields_without_first) }
people.select { fields.delete(-1).as(:fields_without_last) }
people.select { data.delete('deeply', 'nested', 'value').as(:data) }
people.select { fields.delete('0', 'name').as(:data) }

Parameters:

• path (Array<String>)

Returns:

• (SQL::Attribute<Types::PG::JSONB>)

# File 'lib/rom/sql/extensions/postgres/types/json.rb', line 118

#descendant(value) ⇒ SQL::Attribute<Types::Bool>

Check whether the LTree is a descendant of the LTree value Translates to the <@ operator

Examples:

people.select(:name).where { ltree_tags.descendant('Bottom.Cities') }

Parameters:

• value (String)

Returns:

• (SQL::Attribute<Types::Bool>)

# File 'lib/rom/sql/extensions/postgres/types/ltree.rb', line 56

#find_ancestor(value) ⇒ SQL::Attribute<Types::PG::LTree>

Return first LTree array entry that is an ancestor of ltree, NULL if none Translates to ?@>

Examples:

people.select(:name).where { parents_tags.find_ancestor('Left.Parks').not(nil)}

Parameters:

• value (String)

Returns:

• (SQL::Attribute<Types::PG::LTree>)

# File 'lib/rom/sql/extensions/postgres/types/ltree.rb', line 149

#find_descendant(value) ⇒ SQL::Attribute<Types::PG::LTree>

Return first LTree array entry that is an descendant of ltree, NULL if none Translates to ?<@

Examples:

people.select(:name).where { parents_tags.find_descendant('Left.Parks').not(nil)}

Parameters:

• value (String)

Returns:

• (SQL::Attribute<Types::PG::LTree>)

# File 'lib/rom/sql/extensions/postgres/types/ltree.rb', line 162

#foreign_key ⇒ SQL::Attribute

Return a new attribute marked as a FK

Returns:

• (SQL::Attribute)

# File 'lib/rom/sql/attribute.rb', line 132

def foreign_key
  meta(foreign_key: true)
end

#func(&block) ⇒ SQL::Function

Create a function DSL from the attribute

Examples:

users[:id].func { integer::count(id).as(:count) }

Returns:

• (SQL::Function)

# File 'lib/rom/sql/attribute.rb', line 257

def func(&block)
  ProjectionDSL.new(name => self).call(&block).first
end

#get(idx) ⇒ SQL::Attribute

Get element by index (PG uses 1-based indexing)

Parameters:

• idx (Integer)

Returns:

• (SQL::Attribute)

# File 'lib/rom/sql/extensions/postgres/types/json.rb', line 30

#get_text(*path) ⇒ SQL::Attribute<Types::String>

Extract the JSON value as text using at the specified path Translates to ->> or #>> depending on the number of arguments

Examples:

people.select { data.get('age').as(:person_age) }
people.select { fields.get(0).as(:first_field) }
people.select { fields.get('0', 'value').as(:first_field_value) }

Parameters:

• path (Array<Integer>, Array<String>) —

  Path to extract

Returns:

• (SQL::Attribute<Types::String>)

# File 'lib/rom/sql/extensions/postgres/types/json.rb', line 45

#has_all_keys(*keys) ⇒ SQL::Attribute<Types::Bool>

Does the JSON value have all the specified top-level keys Translates to ?&

Examples:

people.where { data.has_all_keys('age', 'height') }

Parameters:

• keys (Array<String>)

Returns:

• (SQL::Attribute<Types::Bool>)

# File 'lib/rom/sql/extensions/postgres/types/json.rb', line 86

#has_any_key(*keys) ⇒ SQL::Attribute<Types::Bool>

Does the JSON value have any of the specified top-level keys Translates to ?|

Examples:

people.where { data.has_any_key('age', 'height') }

Parameters:

• keys (Array<String>)

Returns:

• (SQL::Attribute<Types::Bool>)

# File 'lib/rom/sql/extensions/postgres/types/json.rb', line 73

#has_key(key) ⇒ SQL::Attribute<Types::Bool>

Does the JSON value have the specified top-level key Translates to ?

Examples:

people.where { data.has_key('age') }

Parameters:

• key (String)

Returns:

• (SQL::Attribute<Types::Bool>)

# File 'lib/rom/sql/extensions/postgres/types/json.rb', line 60

#in(*args) ⇒ Object

Return a boolean expression with an inclusion test

If the single argument passed to the method is a Range object then the resulting expression will restrict the attribute value with range’s bounds. Upper bound condition will be inclusive/non-inclusive depending on the range type.

If more than one argument is passed to the method or the first argument is not Range then the result will be a simple IN check.

Examples:

users.where { id.in(1..100) | created_at(((Time.now - 86400)..Time.now)) }
users.where { id.in(1, 2, 3) }
users.where(users[:id].in(1, 2, 3))

Parameters:

• args (Array<Object>) —

  A range or a list of values for an inclusion check

# File 'lib/rom/sql/attribute.rb', line 237

def in(*args)
  if args.first.is_a?(Range)
    range = args.first
    lower_cond = __cmp__(:>=, range.begin)
    upper_cond = __cmp__(range.exclude_end? ? :< : :<=, range.end)

    Sequel::SQL::BooleanExpression.new(:AND, lower_cond, upper_cond)
  else
    __cmp__(:IN, args)
  end
end

#indexed ⇒ Object

Returns a new attribute marked as indexed

# File 'lib/rom/sql/attribute.rb', line 313

def indexed
  meta(index: true)
end

#indexed? ⇒ Boolean

Returns:

• (Boolean)

# File 'lib/rom/sql/attribute.rb', line 306

def indexed?
  meta[:index].equal?(true)
end

#is(other) ⇒ Object

Return a boolean expression with an equality operator

Examples:

users.where { id.is(1) }

users.where(users[:id].is(1))

Parameters:

• other (Object) —

  Any SQL-compatible object type

# File 'lib/rom/sql/attribute.rb', line 177

def is(other)
  self =~ other
end

#join(delimiter, null_repr) ⇒ SQL::Attribute<Types::String>

Convert the array to a string by joining values with a delimiter (empty stirng by default) and optional filler for NULL values Translates to an array_to_string call

Parameters:

• delimiter (Object)
• null_repr (Object)

Returns:

• (SQL::Attribute<Types::String>)

# File 'lib/rom/sql/extensions/postgres/types/array.rb', line 67

#joined ⇒ SQL::Attribute

Return a new attribute marked as joined

Whenever you join two schemas, the right schema’s attribute will be marked as joined using this method

Returns:

• (SQL::Attribute) —

  Original attribute marked as joined

# File 'lib/rom/sql/attribute.rb', line 84

def joined
  meta(joined: true)
end

#joined? ⇒ Boolean

Return if an attribute was used in a join

Examples:

schema = users.schema.join(tasks.schema)

schema[:id, :tasks].joined?
# => true

Returns:

• (Boolean)

# File 'lib/rom/sql/attribute.rb', line 99

def joined?
  meta[:joined].equal?(true)
end

#length ⇒ SQL::Attribute<Types::Integer>

Return array size

Returns:

• (SQL::Attribute<Types::Integer>)

# File 'lib/rom/sql/extensions/postgres/types/array.rb', line 41

#match(value) ⇒ SQL::Attribute<Types::Bool>

Check whether the LTree match a lquery value Translates to the ~ operator

Examples:

people.select(:name).where { ltree_tags.match('Bottom.Cities') }

Parameters:

• value (String)

Returns:

• (SQL::Attribute<Types::Bool>)

# File 'lib/rom/sql/extensions/postgres/types/ltree.rb', line 2

#match_any(value) ⇒ SQL::Attribute<Types::Bool>

Check whether the LTree match any of the lquery values Translates to the ? operator

Examples:

people.select(:name).where { ltree_tags.match_any(['Bottom', 'Bottom.Cities.*']) }
people.select(:name).where { ltree_tags.match_any('Bottom,Bottom.Cities.*') }

Parameters:

• value (Array, String)

Returns:

• (SQL::Attribute<Types::Bool>)

# File 'lib/rom/sql/extensions/postgres/types/ltree.rb', line 15

#match_any_lquery(value) ⇒ SQL::Attribute<Types::PG::LTree>

Return first LTree array entry that matches lquery, NULL if none Translates to ?~

Examples:

people.select(:name).where { parents_tags.match_any_lquery('Right.*').not(nil)}

Parameters:

• value (String)

Returns:

• (SQL::Attribute<Types::PG::LTree>)

# File 'lib/rom/sql/extensions/postgres/types/ltree.rb', line 175

#match_any_ltextquery(value) ⇒ SQL::Attribute<Types::PG::LTree>

Return first LTree array entry that matches ltextquery, NULL if none Translates to ?@

Examples:

people.select(:name).where { parents_tags.match_any_ltextquery('EmpireState').not(nil)}

Parameters:

• value (String)

Returns:

• (SQL::Attribute<Types::PG::LTree>)

# File 'lib/rom/sql/extensions/postgres/types/ltree.rb', line 188

#match_ltextquery(value) ⇒ SQL::Attribute<Types::Bool>

Check whether the LTree match a ltextquery Translates to the @ operator

Examples:

people.select(:name).where { ltree_tags.match_ltextquery('Countries & Brasil') }

Parameters:

• value (String)

Returns:

• (SQL::Attribute<Types::Bool>)

# File 'lib/rom/sql/extensions/postgres/types/ltree.rb', line 29

#merge(value) ⇒ SQL::Attribute<Types::PG::JSONB>

Concatenate two JSON values Translates to ||

Examples:

people.select { data.merge(fetched_at: Time.now).as(:data) }
people.select { (fields + [name: 'height', value: 165]).as(:fields) }

Parameters:

• value (Hash, Array)

Returns:

• (SQL::Attribute<Types::PG::JSONB>)

# File 'lib/rom/sql/extensions/postgres/types/json.rb', line 99

#meta_options_ast ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/rom/sql/attribute.rb', line 318

def meta_options_ast
  meta = super
  meta[:index] = true if indexed?
  meta
end

#not(other) ⇒ Object

Return a boolean expression with a negated equality operator

Examples:

users.where { id.not(1) }

users.where(users[:id].not(1))

Parameters:

• other (Object) —

  Any SQL-compatible object type

# File 'lib/rom/sql/attribute.rb', line 203

def not(other)
  !is(other)
end

#overlaps(other) ⇒ SQL::Attribute<Types::Bool>

Check whether the arrays have common values Translates to &&

Parameters:

• other (Array)

Returns:

• (SQL::Attribute<Types::Bool>)

# File 'lib/rom/sql/extensions/postgres/types/array.rb', line 48

#qualifiable? ⇒ Boolean

Return if an attribute is qualifiable

Returns:

• (Boolean)

# File 'lib/rom/sql/attribute.rb', line 123

def qualifiable?
  !source.nil?
end

#qualified(table_alias = nil) ⇒ SQL::Attribute

Return a new attribute marked as qualified

Examples:

users[:id].aliased(:user_id)

Returns:

• (SQL::Attribute)

# File 'lib/rom/sql/attribute.rb', line 63

def qualified(table_alias = nil)
  return self if qualified? && table_alias.nil?
  return meta(qualified: false) unless qualifiable?

  case sql_expr
  when Sequel::SQL::AliasedExpression, Sequel::SQL::Identifier, Sequel::SQL::QualifiedIdentifier
    attr = meta(qualified: table_alias || true)
    attr.meta(sql_expr: attr.to_sql_name)
  else
    raise QualifyError, "can't qualify #{name.inspect} (#{sql_expr.inspect})"
  end
end

#qualified? ⇒ Boolean

Return if an attribute type is qualified

Examples:

id = users[:id].qualify

id.qualified?
# => true

Returns:

• (Boolean)

# File 'lib/rom/sql/attribute.rb', line 114

def qualified?
  meta[:qualified].equal?(true) || meta[:qualified].is_a?(Symbol)
end

#remove_value(value) ⇒ SQL::Attribute<Types::PG::Array>

Remove elements by value

Parameters:

• value (Object)

Returns:

• (SQL::Attribute<Types::PG::Array>)

# File 'lib/rom/sql/extensions/postgres/types/array.rb', line 58

#sql_literal(ds) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

Sequel calls this method to coerce an attribute into SQL string

Parameters:

• ds (Sequel::Dataset)

# File 'lib/rom/sql/attribute.rb', line 283

def sql_literal(ds)
  ds.literal(sql_expr)
end

#to_sql_name ⇒ Sequel::SQL::AliasedExpression, Sequel::SQL::Identifier

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

Sequel column representation

Returns:

• (Sequel::SQL::AliasedExpression, Sequel::SQL::Identifier)

# File 'lib/rom/sql/attribute.rb', line 292

def to_sql_name
  @_to_sql_name ||=
    if qualified? && aliased?
      Sequel.qualify(table_name, name).as(self.alias)
    elsif qualified?
      Sequel.qualify(table_name, name)
    elsif aliased?
      Sequel.as(name, self.alias)
    else
      Sequel[name]
    end
end

#to_sym ⇒ Symbol

Return symbol representation of an attribute

This uses convention from sequel where double underscore in the name is used for qualifying, and triple underscore means aliasing

Examples:

users[:id].qualified.to_sym
# => :users__id

users[:id].as(:user_id).to_sym
# => :id___user_id

users[:id].qualified.as(:user_id).to_sym
# => :users__id___user_id

Returns:

• (Symbol)

# File 'lib/rom/sql/attribute.rb', line 154

def to_sym
  @_to_sym ||=
    if qualified? && aliased?
      :"#{table_name}__#{name}___#{meta[:alias]}"
    elsif qualified?
      :"#{table_name}__#{name}"
    elsif aliased?
      :"#{name}___#{meta[:alias]}"
    else
      name
    end
end

#unwrap ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

Removes metadata from the type

# File 'lib/rom/sql/attribute.rb', line 327

def unwrap
  cleaned_meta = meta.reject { |k, _| META_KEYS.include?(k) }
  type = optional? ? right : self.type

  self.class.new(type.with(meta: cleaned_meta), options)
end

#value(value) ⇒ SQL::Attribute

Wrap a value with the type, it allows using attribute and type specific methods on literals and things like this

Parameters:

• value (Object) —

  any SQL-serializable value

Returns:

• (SQL::Attribute)

# File 'lib/rom/sql/attribute.rb', line 341

def value(value)
  meta(sql_expr: Sequel[value])
end