module Sequel::Model::Associations::DatasetMethods

Eager loading makes it so that you can load all associated records for a set of objects in a single query, instead of a separate query for each object.

Two separate implementations are provided. eager should be used most of the time, as it loads associated records using one query per association. However, it does not allow you the ability to filter or order based on columns in associated tables. eager_graph loads all records in a single query using JOINs, allowing you to filter or order based on columns in associated tables. However, eager_graph is usually slower than eager, especially if multiple one_to_many or many_to_many associations are joined.

You can cascade the eager loading (loading associations on associated objects) with no limit to the depth of the cascades. You do this by passing a hash to eager or eager_graph with the keys being associations of the current model and values being associations of the model associated with the current model via the key.

The arguments can be symbols or hashes with symbol keys (for cascaded eager loading). Examples:

Album.eager(:artist).all
Album.eager_graph(:artist).all
Album.eager(:artist, :genre).all
Album.eager_graph(:artist, :genre).all
Album.eager(:artist).eager(:genre).all
Album.eager_graph(:artist).eager_graph(:genre).all
Artist.eager(albums: :tracks).all
Artist.eager_graph(albums: :tracks).all
Artist.eager(albums: {tracks: :genre}).all
Artist.eager_graph(albums: {tracks: :genre}).all

You can also pass a callback as a hash value in order to customize the dataset being eager loaded at query time, analogous to the way the :eager_block association option allows you to customize it at association definition time. For example, if you wanted artists with their albums since 1990:

Artist.eager(albums: proc{|ds| ds.where{year > 1990}})

Or if you needed albums and their artist’s name only, using a single query:

Albums.eager_graph(artist: proc{|ds| ds.select(:name)})

To cascade eager loading while using a callback, you substitute the cascaded associations with a single entry hash that has the proc callback as the key and the cascaded associations as the value. This will load artists with their albums since 1990, and also the tracks on those albums and the genre for those tracks:

Artist.eager(albums: {proc{|ds| ds.where{year > 1990}}=>{tracks: :genre}})

Public Instance Methods

as_hash (key_column=nil, value_column=nil, opts=OPTS)

Source

     # File lib/sequel/model/associations.rb
3519 def as_hash(key_column=nil, value_column=nil, opts=OPTS)
3520   if (@opts[:eager_graph] || @opts[:eager]) && !opts.has_key?(:all)
3521     opts = Hash[opts]
3522     opts[:all] = true
3523   end
3524   super
3525 end

If the dataset is being eagerly loaded, default to calling all instead of each.

Calls superclass method

association_join (*associations)

Source

     # File lib/sequel/model/associations.rb
3225 def association_join(*associations)
3226   association_inner_join(*associations)
3227 end

Adds one or more INNER JOINs to the existing dataset using the keys and conditions specified by the given association(s). Take the same arguments as eager_graph, and operates similarly, but only adds the joins as opposed to making the other changes (such as adding selected columns and setting up eager loading).

The following methods also exist for specifying a different type of JOIN:

association_full_join: FULL JOIN
association_inner_join: INNER JOIN
association_left_join: LEFT JOIN
association_right_join: RIGHT JOIN

Examples:

# For each album, association_join load the artist
Album.association_join(:artist).all
# SELECT *
# FROM albums
# INNER JOIN artists AS artist ON (artists.id = albums.artist_id)

# For each album, association_join load the artist, using a specified alias
Album.association_join(Sequel[:artist].as(:a)).all
# SELECT *
# FROM albums
# INNER JOIN artists AS a ON (a.id = albums.artist_id)

# For each album, association_join load the artist and genre
Album.association_join(:artist, :genre).all
Album.association_join(:artist).association_join(:genre).all
# SELECT *
# FROM albums
# INNER JOIN artists AS artist ON (artist.id = albums.artist_id)
# INNER JOIN genres AS genre ON (genre.id = albums.genre_id)

# For each artist, association_join load albums and tracks for each album
Artist.association_join(albums: :tracks).all
# SELECT *
# FROM artists
# INNER JOIN albums ON (albums.artist_id = artists.id)
# INNER JOIN tracks ON (tracks.album_id = albums.id)

# For each artist, association_join load albums, tracks for each album, and genre for each track
Artist.association_join(albums: {tracks: :genre}).all
# SELECT *
# FROM artists
# INNER JOIN albums ON (albums.artist_id = artists.id)
# INNER JOIN tracks ON (tracks.album_id = albums.id)
# INNER JOIN genres AS genre ON (genre.id = tracks.genre_id)

# For each artist, association_join load albums with year > 1990
Artist.association_join(albums: proc{|ds| ds.where{year > 1990}}).all
# SELECT *
# FROM artists
# INNER JOIN (
#   SELECT * FROM albums WHERE (year > 1990)
# ) AS albums ON (albums.artist_id = artists.id)

# For each artist, association_join load albums and tracks 1-10 for each album
Artist.association_join(albums: {tracks: proc{|ds| ds.where(number: 1..10)}}).all
# SELECT *
# FROM artists
# INNER JOIN albums ON (albums.artist_id = artists.id)
# INNER JOIN (
#   SELECT * FROM tracks WHERE ((number >= 1) AND (number <= 10))
# ) AS tracks ON (tracks.albums_id = albums.id)

# For each artist, association_join load albums with year > 1990, and tracks for those albums
Artist.association_join(albums: {proc{|ds| ds.where{year > 1990}}=>:tracks}).all
# SELECT *
# FROM artists
# INNER JOIN (
#   SELECT * FROM albums WHERE (year > 1990)
# ) AS albums ON (albums.artist_id = artists.id)
# INNER JOIN tracks ON (tracks.album_id = albums.id)

complex_expression_sql_append (sql, op, args)

Source

     # File lib/sequel/model/associations.rb
3236 def complex_expression_sql_append(sql, op, args)
3237   r = args[1]
3238   if (((op == :'=' || op == :'!=') && r.is_a?(Sequel::Model)) ||
3239       (multiple = ((op == :IN || op == :'NOT IN') && ((is_ds = r.is_a?(Sequel::Dataset)) || (r.respond_to?(:all?) && r.all?{|x| x.is_a?(Sequel::Model)})))))
3240     l = args[0]
3241     if ar = model.association_reflection(l)
3242       raise Error, "filtering by associations is not allowed for #{ar.inspect}" if ar[:allow_filtering_by] == false
3243 
3244       if multiple
3245         klass = ar.associated_class
3246         if is_ds
3247           if r.respond_to?(:model)
3248             unless r.model <= klass
3249               # A dataset for a different model class, could be a valid regular query
3250               return super
3251             end
3252           else
3253             # Not a model dataset, could be a valid regular query
3254             return super
3255           end
3256         else
3257           unless r.all?{|x| x.is_a?(klass)}
3258             raise Sequel::Error, "invalid association class for one object for association #{l.inspect} used in dataset filter for model #{model.inspect}, expected class #{klass.inspect}"
3259           end
3260         end
3261       elsif !r.is_a?(ar.associated_class)
3262         raise Sequel::Error, "invalid association class #{r.class.inspect} for association #{l.inspect} used in dataset filter for model #{model.inspect}, expected class #{ar.associated_class.inspect}"
3263       end
3264 
3265       if exp = association_filter_expression(op, ar, r)
3266         literal_append(sql, exp)
3267       else
3268         raise Sequel::Error, "invalid association type #{ar[:type].inspect} for association #{l.inspect} used in dataset filter for model #{model.inspect}"
3269       end
3270     elsif multiple && (is_ds || r.empty?)
3271       # Not a query designed for this support, could be a valid regular query
3272       super
3273     else
3274       raise Sequel::Error, "invalid association #{l.inspect} used in dataset filter for model #{model.inspect}"
3275     end
3276   else
3277     super
3278   end
3279 end

If the expression is in the form x = y where y is a Sequel::Model instance, array of Sequel::Model instances, or a Sequel::Model dataset, assume x is an association symbol and look up the association reflection via the dataset’s model. From there, return the appropriate SQL based on the type of association and the values of the foreign/primary keys of y. For most association types, this is a simple transformation, but for many_to_many associations this creates a subquery to the join table.

Calls superclass method

eager (*associations)

Source

     # File lib/sequel/model/associations.rb
3356 def eager(*associations)
3357   opts = @opts[:eager]
3358   association_opts = eager_options_for_associations(associations)
3359   opts = opts ? opts.merge(association_opts) : association_opts
3360   clone(:eager=>opts.freeze)
3361 end

The preferred eager loading method. Loads all associated records using one query for each association.

The basic idea for how it works is that the dataset is first loaded normally. Then it goes through all associations that have been specified via eager. It loads each of those associations separately, then associates them back to the original dataset via primary/foreign keys. Due to the necessity of all objects being present, you need to use all to use eager loading, as it can’t work with each.

This implementation avoids the complexity of extracting an object graph out of a single dataset, by building the object graph out of multiple datasets, one for each association. By using a separate dataset for each association, it avoids problems such as aliasing conflicts and creating cartesian product result sets if multiple one_to_many or many_to_many eager associations are requested.

One limitation of using this method is that you cannot filter the current dataset based on values of columns in an associated table, since the associations are loaded in separate queries. To do that you need to load all associations in the same query, and extract an object graph from the results of that query. If you need to filter based on columns in associated tables, look at eager_graph or join the tables you need to filter on manually.

Each association’s order, if defined, is respected. If the association uses a block or has an :eager_block argument, it is used.

To modify the associated dataset that will be used for the eager load, you should use a hash for the association, with the key being the association name symbol, and the value being a callable object that is called with the associated dataset and should return a modified dataset. If that association also has dependent associations, instead of a callable object, use a hash with the callable object being the key, and the dependent association(s) as the value.

Examples:

# For each album, eager load the artist
Album.eager(:artist).all
# SELECT * FROM albums
# SELECT * FROM artists WHERE (id IN (...))

# For each album, eager load the artist and genre
Album.eager(:artist, :genre).all
Album.eager(:artist).eager(:genre).all
# SELECT * FROM albums
# SELECT * FROM artists WHERE (id IN (...))
# SELECT * FROM genres WHERE (id IN (...))

# For each artist, eager load albums and tracks for each album
Artist.eager(albums: :tracks).all
# SELECT * FROM artists
# SELECT * FROM albums WHERE (artist_id IN (...))
# SELECT * FROM tracks WHERE (album_id IN (...))

# For each artist, eager load albums, tracks for each album, and genre for each track
Artist.eager(albums: {tracks: :genre}).all
# SELECT * FROM artists
# SELECT * FROM albums WHERE (artist_id IN (...))
# SELECT * FROM tracks WHERE (album_id IN (...))
# SELECT * FROM genre WHERE (id IN (...))

# For each artist, eager load albums with year > 1990
Artist.eager(albums: proc{|ds| ds.where{year > 1990}}).all
# SELECT * FROM artists
# SELECT * FROM albums WHERE ((year > 1990) AND (artist_id IN (...)))

# For each artist, eager load albums and tracks 1-10 for each album
Artist.eager(albums: {tracks: proc{|ds| ds.where(number: 1..10)}}).all
# SELECT * FROM artists
# SELECT * FROM albums WHERE (artist_id IN (...))
# SELECT * FROM tracks WHERE ((number >= 1) AND (number <= 10) AND (album_id IN (...)))

# For each artist, eager load albums with year > 1990, and tracks for those albums
Artist.eager(albums: {proc{|ds| ds.where{year > 1990}}=>:tracks}).all
# SELECT * FROM artists
# SELECT * FROM albums WHERE ((year > 1990) AND (artist_id IN (...)))
# SELECT * FROM albums WHERE (artist_id IN (...))

eager_graph (*associations)

Source

     # File lib/sequel/model/associations.rb
3466 def eager_graph(*associations)
3467   eager_graph_with_options(associations)
3468 end

The secondary eager loading method. Loads all associations in a single query. This method should only be used if you need to filter or order based on columns in associated tables, or if you have done comparative benchmarking and determined it is faster.

This method uses Dataset#graph to create appropriate aliases for columns in all the tables. Then it uses the graph’s metadata to build the associations from the single hash, and finally replaces the array of hashes with an array model objects inside all.

Be very careful when using this with multiple one_to_many or many_to_many associations, as you can create large cartesian products. If you must graph multiple one_to_many and many_to_many associations, make sure your filters are narrow if the datasets are large.

Each association’s order, if defined, is respected. eager_graph probably won’t work correctly on a limited dataset, unless you are only graphing many_to_one, one_to_one, and one_through_one associations.

Does not use the block defined for the association, since it does a single query for all objects. You can use the :graph_* association options to modify the SQL query.

Like eager, you need to call all on the dataset for the eager loading to work. If you just call each, it will yield plain hashes, each containing all columns from all the tables.

To modify the associated dataset that will be joined to the current dataset, you should use a hash for the association, with the key being the association name symbol, and the value being a callable object that is called with the associated dataset and should return a modified dataset. If that association also has dependent associations, instead of a callable object, use a hash with the callable object being the key, and the dependent association(s) as the value.

You can specify an custom alias and/or join type on a per-association basis by providing an Sequel::SQL::AliasedExpression object instead of an a Symbol for the association name.

You cannot mix calls to eager_graph and graph on the same dataset.

Examples:

# For each album, eager_graph load the artist
Album.eager_graph(:artist).all
# SELECT ...
# FROM albums
# LEFT OUTER JOIN artists AS artist ON (artists.id = albums.artist_id)

# For each album, eager_graph load the artist, using a specified alias
Album.eager_graph(Sequel[:artist].as(:a)).all
# SELECT ...
# FROM albums
# LEFT OUTER JOIN artists AS a ON (a.id = albums.artist_id)

# For each album, eager_graph load the artist, using a specified alias
# and custom join type

Album.eager_graph(Sequel[:artist].as(:a, join_type: :inner)).all
# SELECT ...
# FROM albums
# INNER JOIN artists AS a ON (a.id = albums.artist_id)

# For each album, eager_graph load the artist and genre
Album.eager_graph(:artist, :genre).all
Album.eager_graph(:artist).eager_graph(:genre).all
# SELECT ...
# FROM albums
# LEFT OUTER JOIN artists AS artist ON (artist.id = albums.artist_id)
# LEFT OUTER JOIN genres AS genre ON (genre.id = albums.genre_id)

# For each artist, eager_graph load albums and tracks for each album
Artist.eager_graph(albums: :tracks).all
# SELECT ...
# FROM artists
# LEFT OUTER JOIN albums ON (albums.artist_id = artists.id)
# LEFT OUTER JOIN tracks ON (tracks.album_id = albums.id)

# For each artist, eager_graph load albums, tracks for each album, and genre for each track
Artist.eager_graph(albums: {tracks: :genre}).all
# SELECT ...
# FROM artists
# LEFT OUTER JOIN albums ON (albums.artist_id = artists.id)
# LEFT OUTER JOIN tracks ON (tracks.album_id = albums.id)
# LEFT OUTER JOIN genres AS genre ON (genre.id = tracks.genre_id)

# For each artist, eager_graph load albums with year > 1990
Artist.eager_graph(albums: proc{|ds| ds.where{year > 1990}}).all
# SELECT ...
# FROM artists
# LEFT OUTER JOIN (
#   SELECT * FROM albums WHERE (year > 1990)
# ) AS albums ON (albums.artist_id = artists.id)

# For each artist, eager_graph load albums and tracks 1-10 for each album
Artist.eager_graph(albums: {tracks: proc{|ds| ds.where(number: 1..10)}}).all
# SELECT ...
# FROM artists
# LEFT OUTER JOIN albums ON (albums.artist_id = artists.id)
# LEFT OUTER JOIN (
#   SELECT * FROM tracks WHERE ((number >= 1) AND (number <= 10))
# ) AS tracks ON (tracks.albums_id = albums.id)

# For each artist, eager_graph load albums with year > 1990, and tracks for those albums
Artist.eager_graph(albums: {proc{|ds| ds.where{year > 1990}}=>:tracks}).all
# SELECT ...
# FROM artists
# LEFT OUTER JOIN (
#   SELECT * FROM albums WHERE (year > 1990)
# ) AS albums ON (albums.artist_id = artists.id)
# LEFT OUTER JOIN tracks ON (tracks.album_id = albums.id)

eager_graph_with_options (associations, opts=OPTS)

Source

     # File lib/sequel/model/associations.rb
3490 def eager_graph_with_options(associations, opts=OPTS)
3491   return self if associations.empty?
3492 
3493   opts = opts.dup unless opts.frozen?
3494   associations = [associations] unless associations.is_a?(Array)
3495   ds = if eg = @opts[:eager_graph]
3496     eg = eg.dup
3497     [:requirements, :reflections, :reciprocals, :limits].each{|k| eg[k] = eg[k].dup}
3498     eg[:local] = opts
3499     ds = clone(:eager_graph=>eg)
3500     ds.eager_graph_associations(ds, model, ds.opts[:eager_graph][:master], [], *associations)
3501   else
3502     # Each of the following have a symbol key for the table alias, with the following values:
3503     # :reciprocals :: the reciprocal value to use for this association
3504     # :reflections :: AssociationReflection instance related to this association
3505     # :requirements :: array of requirements for this association
3506     # :limits :: Any limit/offset array slicing that need to be handled in ruby land after loading
3507     opts = {:requirements=>{}, :master=>alias_symbol(first_source), :reflections=>{}, :reciprocals=>{}, :limits=>{}, :local=>opts, :cartesian_product_number=>0, :row_proc=>row_proc}
3508     ds = clone(:eager_graph=>opts)
3509     ds = ds.eager_graph_associations(ds, model, ds.opts[:eager_graph][:master], [], *associations).naked
3510   end
3511 
3512   ds.opts[:eager_graph].freeze
3513   ds.opts[:eager_graph].each_value{|v| v.freeze if v.is_a?(Hash)}
3514   ds
3515 end

Run eager_graph with some options specific to just this call. Unlike eager_graph, this takes the associations as a single argument instead of multiple arguments.

Options:

:join_type

Override the join type specified in the association

:limit_strategy

Use a strategy for handling limits on associations. Appropriate :limit_strategy values are:

true: Pick the most appropriate based on what the database supports
:distinct_on: Force use of DISTINCT ON stategy (*_one associations only)
:correlated_subquery: Force use of correlated subquery strategy (one_to_* associations only)
:window_function: Force use of window function strategy
:ruby: Don’t modify the SQL, implement limits/offsets with array slicing

This can also be a hash with association name symbol keys and one of the above values, to use different strategies per association.

The default is the :ruby strategy. Choosing a different strategy can make your code significantly slower in some cases (perhaps even the majority of cases), so you should only use this if you have benchmarked that it is faster for your use cases.

to_hash_groups (key_column, value_column=nil, opts=OPTS)

Source

     # File lib/sequel/model/associations.rb
3529 def to_hash_groups(key_column, value_column=nil, opts=OPTS)
3530   if (@opts[:eager_graph] || @opts[:eager]) && !opts.has_key?(:all)
3531     opts = Hash[opts]
3532     opts[:all] = true
3533   end
3534   super
3535 end

If the dataset is being eagerly loaded, default to calling all instead of each.

Calls superclass method

ungraphed ()

Source

     # File lib/sequel/model/associations.rb
3541 def ungraphed
3542   ds = super.clone(:eager_graph=>nil)
3543   if (eg = @opts[:eager_graph]) && (rp = eg[:row_proc])
3544     ds = ds.with_row_proc(rp)
3545   end
3546   ds
3547 end

Do not attempt to split the result set into associations, just return results as simple objects. This is useful if you want to use eager_graph as a shortcut to have all of the joins and aliasing set up, but want to do something else with the dataset.

Calls superclass method

Protected Instance Methods

eager_graph_association (ds, model, ta, requirements, r, *associations)

Source

     # File lib/sequel/model/associations.rb
3566 def eager_graph_association(ds, model, ta, requirements, r, *associations)
3567   if r.is_a?(SQL::AliasedExpression)
3568     alias_base = r.alias
3569     if r.columns.is_a?(Hash)
3570       join_type = r.columns[:join_type]
3571     end
3572     r = r.expression
3573   else
3574     alias_base = r[:graph_alias_base]
3575   end
3576   assoc_table_alias = ds.unused_table_alias(alias_base)
3577   loader = r[:eager_grapher]
3578   if !associations.empty?
3579     if associations.first.respond_to?(:call)
3580       callback = associations.first
3581       associations = {}
3582     elsif associations.length == 1 && (assocs = associations.first).is_a?(Hash) && assocs.length == 1 && (pr_assoc = assocs.to_a.first) && pr_assoc.first.respond_to?(:call)
3583       callback, assoc = pr_assoc
3584       associations = assoc.is_a?(Array) ? assoc : [assoc]
3585     end
3586   end
3587   local_opts = ds.opts[:eager_graph][:local]
3588   limit_strategy = r.eager_graph_limit_strategy(local_opts[:limit_strategy])
3589 
3590   # SEQUEL6: remove and integrate the auto_restrict_eager_graph plugin
3591   if !r[:orig_opts].has_key?(:graph_conditions) && !r[:orig_opts].has_key?(:graph_only_conditions) && !r.has_key?(:graph_block) && !r[:allow_eager_graph]
3592     if r[:conditions] && !Sequel.condition_specifier?(r[:conditions])
3593       raise Error, "Cannot eager_graph association when :conditions specified and not a hash or an array of pairs.  Specify :graph_conditions, :graph_only_conditions, or :graph_block for the association.  Model: #{r[:model]}, association: #{r[:name]}"
3594     end
3595 
3596     if r[:block] && !r[:graph_use_association_block]
3597       warn "eager_graph used for association when association given a block without graph options.  The block is ignored in this case.  This will result in an exception starting in Sequel 6.  Model: #{r[:model]}, association: #{r[:name]}"
3598     end
3599   end
3600 
3601   ds = loader.call(:self=>ds, :table_alias=>assoc_table_alias, :implicit_qualifier=>(ta == ds.opts[:eager_graph][:master]) ? first_source : qualifier_from_alias_symbol(ta, first_source), :callback=>callback, :join_type=>join_type || local_opts[:join_type], :join_only=>local_opts[:join_only], :limit_strategy=>limit_strategy, :from_self_alias=>ds.opts[:eager_graph][:master])
3602   if r[:order_eager_graph] && (order = r.fetch(:graph_order, r[:order]))
3603     ds = ds.order_append(*qualified_expression(order, assoc_table_alias))
3604   end
3605   eager_graph = ds.opts[:eager_graph]
3606   eager_graph[:requirements][assoc_table_alias] = requirements.dup
3607   eager_graph[:reflections][assoc_table_alias] = r
3608   if limit_strategy == :ruby
3609     eager_graph[:limits][assoc_table_alias] = r.limit_and_offset 
3610   end
3611   eager_graph[:cartesian_product_number] += r[:cartesian_product_number] || 2
3612   ds = ds.eager_graph_associations(ds, r.associated_class, assoc_table_alias, requirements + [assoc_table_alias], *associations) unless associations.empty?
3613   ds
3614 end

Call graph on the association with the correct arguments, update the eager_graph data structure, and recurse into eager_graph_associations if there are any passed in associations (which would be dependencies of the current association)

Arguments:

ds: Current dataset
model: Current Model
ta: table_alias used for the parent association
requirements: an array, used as a stack for requirements
r: association reflection for the current association, or an SQL::AliasedExpression with the reflection as the expression, the alias base as the alias (or nil to use the default alias), and an optional hash with a :join_type entry as the columns to use a custom join type.
*associations: any associations dependent on this one

eager_graph_associations (ds, model, ta, requirements, *associations)

Source

     # File lib/sequel/model/associations.rb
3625 def eager_graph_associations(ds, model, ta, requirements, *associations)
3626   associations.flatten.each do |association|
3627     ds = case association
3628     when Symbol, SQL::AliasedExpression
3629       ds.eager_graph_association(ds, model, ta, requirements, eager_graph_check_association(model, association))
3630     when Hash
3631       association.each do |assoc, assoc_assocs|
3632         ds = ds.eager_graph_association(ds, model, ta, requirements, eager_graph_check_association(model, assoc), assoc_assocs)
3633       end
3634       ds
3635     else
3636       raise(Sequel::Error, 'Associations must be in the form of a symbol or hash')
3637     end
3638   end
3639   ds
3640 end

Check the associations are valid for the given model. Call eager_graph_association on each association.

Arguments:

ds: Current dataset
model: Current Model
ta: table_alias used for the parent association
requirements: an array, used as a stack for requirements
*associations: the associations to add to the graph

eager_graph_build_associations (hashes)

Source

     # File lib/sequel/model/associations.rb
3644 def eager_graph_build_associations(hashes)
3645   hashes.replace(_eager_graph_build_associations(hashes, eager_graph_loader))
3646 end

Replace the array of plain hashes with an array of model objects will all eager_graphed associations set in the associations cache for each object.

Private Instance Methods

_association_join (type, associations)

Source

     # File lib/sequel/model/associations.rb
3652 def _association_join(type, associations)
3653   clone(:join=>clone(:graph_from_self=>false).eager_graph_with_options(associations, :join_type=>type, :join_only=>true).opts[:join])
3654 end

Return a new dataset with JOINs of the given type added, using the tables and conditions specified by the associations.

_eager_graph_build_associations (hashes, egl)

Source

     # File lib/sequel/model/associations.rb
3658 def _eager_graph_build_associations(hashes, egl)
3659   egl.load(hashes)
3660 end

Process the array of hashes using the eager graph loader to return an array of model objects with the associations set.

add_association_filter_conditions (ref, obj, expr)

Source

     # File lib/sequel/model/associations.rb
3665 def add_association_filter_conditions(ref, obj, expr)
3666   if expr != SQL::Constants::FALSE && ref.filter_by_associations_add_conditions?
3667     Sequel[ref.filter_by_associations_conditions_expression(obj)]
3668   else
3669     expr
3670   end
3671 end

If the association has conditions itself, then it requires additional filters be added to the current dataset to ensure that the passed in object would also be included by the association’s conditions.

association_filter_expression (op, ref, obj)

Source

     # File lib/sequel/model/associations.rb
3693 def association_filter_expression(op, ref, obj)
3694   meth = :"#{ref[:type]}_association_filter_expression"
3695   # Allow calling private association specific method to get filter expression
3696   send(meth, op, ref, obj) if respond_to?(meth, true)
3697 end

Return an expression for filtering by the given association reflection and associated object.

association_filter_handle_inversion (op, exp, cols)

Source

     # File lib/sequel/model/associations.rb
3701 def association_filter_handle_inversion(op, exp, cols)
3702   if op == :'!=' || op == :'NOT IN'
3703     if exp == SQL::Constants::FALSE
3704       ~exp
3705     else
3706       ~exp | Sequel::SQL::BooleanExpression.from_value_pairs(cols.zip([]), :OR)
3707     end
3708   else
3709     exp
3710   end
3711 end

Handle inversion for association filters by returning an inverted expression, plus also handling cases where the referenced columns are NULL.

association_filter_key_expression (keys, meths, obj)

Source

     # File lib/sequel/model/associations.rb
3716 def association_filter_key_expression(keys, meths, obj)
3717   vals = if obj.is_a?(Sequel::Dataset)
3718     {(keys.length == 1 ? keys.first : keys)=>obj.select(*meths).exclude(Sequel::SQL::BooleanExpression.from_value_pairs(meths.zip([]), :OR))}
3719   else
3720     vals = Array(obj).reject{|o| !meths.all?{|m| o.get_column_value(m)}}
3721     return SQL::Constants::FALSE if vals.empty?
3722     if obj.is_a?(Array) || obj.is_a?(Set)
3723       if keys.length == 1
3724         meth = meths.first
3725         {keys.first=>vals.map{|o| o.get_column_value(meth)}}
3726       else
3727         {keys=>vals.map{|o| meths.map{|m| o.get_column_value(m)}}}
3728       end  
3729     else
3730       keys.zip(meths.map{|k| obj.get_column_value(k)})
3731     end
3732   end
3733   SQL::BooleanExpression.from_value_pairs(vals)
3734 end

Return an expression for making sure that the given keys match the value of the given methods for either the single object given or for any of the objects given if obj is an array.

check_association (model, association)

Source

     # File lib/sequel/model/associations.rb
3737 def check_association(model, association)
3738   raise(Sequel::UndefinedAssociation, "Invalid association #{association} for #{model.name}") unless reflection = model.association_reflection(association)
3739   raise(Sequel::Error, "Eager loading is not allowed for #{model.name} association #{association}") if reflection[:allow_eager] == false
3740   reflection
3741 end

Make sure the association is valid for this model, and return the related AssociationReflection.

eager_graph_check_association (model, association)

Source

     # File lib/sequel/model/associations.rb
3745 def eager_graph_check_association(model, association)
3746   reflection = if association.is_a?(SQL::AliasedExpression)
3747     expr = association.expression
3748     if expr.is_a?(SQL::Identifier)
3749       expr = expr.value
3750       if expr.is_a?(String)
3751         expr = expr.to_sym
3752       end
3753     end
3754 
3755     check_reflection = check_association(model, expr)
3756     SQL::AliasedExpression.new(check_reflection, association.alias || expr, association.columns)
3757   else
3758     check_reflection = check_association(model, association)
3759   end
3760 
3761   if check_reflection && check_reflection[:allow_eager_graph] == false
3762     raise Error, "eager_graph not allowed for #{reflection.inspect}"
3763   end
3764 
3765   reflection
3766 end

Allow associations that are eagerly graphed to be specified as an SQL::AliasedExpression, for per-call determining of the alias base.

eager_graph_loader ()

Source

     # File lib/sequel/model/associations.rb
3769 def eager_graph_loader
3770   unless egl = cache_get(:_model_eager_graph_loader)
3771     egl = cache_set(:_model_eager_graph_loader, EagerGraphLoader.new(self))
3772   end
3773   egl.dup
3774 end

The EagerGraphLoader instance used for converting eager_graph results.

eager_load (a, eager_assoc=@opts[:eager], m=model)

Source

     # File lib/sequel/model/associations.rb
3777 def eager_load(a, eager_assoc=@opts[:eager], m=model)
3778   return if a.empty?
3779 
3780   # Reflections for all associations to eager load
3781   reflections = eager_assoc.keys.map{|assoc| m.association_reflection(assoc) || (raise Sequel::UndefinedAssociation, "Model: #{self}, Association: #{assoc}")}
3782 
3783   perform_eager_loads(prepare_eager_load(a, reflections, eager_assoc))
3784 
3785   reflections.each do |r|
3786     a.each{|object| object.send(:run_association_callbacks, r, :after_load, object.associations[r[:name]])} if r[:after_load]
3787   end 
3788 
3789   nil
3790 end

Eagerly load all specified associations.

eager_options_for_associations (associations)

Source

     # File lib/sequel/model/associations.rb
3675 def eager_options_for_associations(associations)
3676   opts = {}
3677   associations.flatten.each do |association|
3678     case association
3679     when Symbol
3680       check_association(model, association)
3681       opts[association] = nil
3682     when Hash
3683       association.keys.each{|assoc| check_association(model, assoc)}
3684       opts.merge!(association)
3685     else
3686       raise(Sequel::Error, 'Associations must be in the form of a symbol or hash')
3687     end
3688   end
3689   opts
3690 end

Process the array of associations arguments (Symbols, Arrays, and Hashes), and return a hash of options suitable for cascading.

many_to_many_association_filter_expression (op, ref, obj)

Source

     # File lib/sequel/model/associations.rb
3857 def many_to_many_association_filter_expression(op, ref, obj)
3858   lpks, lks, rks = ref.values_at(:left_primary_key_columns, :left_keys, :right_keys)
3859   jt = ref.join_table_alias
3860   lpks = lpks.first if lpks.length == 1
3861   lpks = ref.qualify(model.table_name, lpks)
3862 
3863   meths = if obj.is_a?(Sequel::Dataset)
3864     ref.qualify(obj.model.table_name, ref.right_primary_keys)
3865   else
3866     ref.right_primary_key_methods
3867   end
3868 
3869   expr = association_filter_key_expression(ref.qualify(jt, rks), meths, obj)
3870   unless expr == SQL::Constants::FALSE
3871     expr = SQL::BooleanExpression.from_value_pairs(lpks=>model.db.from(ref[:join_table]).select(*ref.qualify(jt, lks)).where(expr).exclude(SQL::BooleanExpression.from_value_pairs(ref.qualify(jt, lks).zip([]), :OR)))
3872     expr = add_association_filter_conditions(ref, obj, expr)
3873   end
3874 
3875   association_filter_handle_inversion(op, expr, Array(lpks))
3876 end

Return a subquery expression for filering by a many_to_many association

Also aliased as: one_through_one_association_filter_expression

many_to_one_association_filter_expression (op, ref, obj)

Source

     # File lib/sequel/model/associations.rb
3880 def many_to_one_association_filter_expression(op, ref, obj)
3881   keys = ref.qualify(model.table_name, ref[:key_columns])
3882   meths = if obj.is_a?(Sequel::Dataset)
3883     ref.qualify(obj.model.table_name, ref.primary_keys)
3884   else
3885     ref.primary_key_methods
3886   end
3887 
3888   expr = association_filter_key_expression(keys, meths, obj)
3889   expr = add_association_filter_conditions(ref, obj, expr)
3890   association_filter_handle_inversion(op, expr, keys)
3891 end

Return a simple equality expression for filering by a many_to_one association

non_sql_option? (key)

Source

     # File lib/sequel/model/associations.rb
3908 def non_sql_option?(key)
3909   super || key == :eager || key == :eager_graph
3910 end

Calls superclass method

one_through_one_association_filter_expression (op, ref, obj)

Alias for: many_to_many_association_filter_expression

one_to_many_association_filter_expression (op, ref, obj)

Source

     # File lib/sequel/model/associations.rb
3894 def one_to_many_association_filter_expression(op, ref, obj)
3895   keys = ref.qualify(model.table_name, ref[:primary_key_columns])
3896   meths = if obj.is_a?(Sequel::Dataset)
3897     ref.qualify(obj.model.table_name, ref[:keys])
3898   else
3899     ref[:key_methods]
3900   end
3901 
3902   expr = association_filter_key_expression(keys, meths, obj)
3903   expr = add_association_filter_conditions(ref, obj, expr)
3904   association_filter_handle_inversion(op, expr, keys)
3905 end

Return a simple equality expression for filering by a one_to_* association

Also aliased as: one_to_one_association_filter_expression

one_to_one_association_filter_expression (op, ref, obj)

Alias for: one_to_many_association_filter_expression

perform_eager_load (loader, eo)

Source

     # File lib/sequel/model/associations.rb
3852 def perform_eager_load(loader, eo)
3853   loader.call(eo)
3854 end

Perform eager loading for a single association using the loader and eager options.

perform_eager_loads (eager_load_data)

Source

     # File lib/sequel/model/associations.rb
3845 def perform_eager_loads(eager_load_data)
3846   eager_load_data.map do |loader, eo|
3847     perform_eager_load(loader, eo)
3848   end
3849 end

Using the hash of loaders and eager options, perform the eager loading.

post_load (all_records)

Source

     # File lib/sequel/model/associations.rb
3914 def post_load(all_records)
3915   eager_graph_build_associations(all_records) if @opts[:eager_graph]
3916   eager_load(all_records) if @opts[:eager] && (row_proc || @opts[:eager_graph])
3917   super
3918 end

Build associations from the graph if eager_graph was used, and/or load other associations if eager was used.

Calls superclass method

prepare_eager_load (a, reflections, eager_assoc)

Source

     # File lib/sequel/model/associations.rb
3793 def prepare_eager_load(a, reflections, eager_assoc)
3794   eager_load_data = {}.compare_by_identity
3795 
3796   # Key is foreign/primary key name symbol.
3797   # Value is hash with keys being foreign/primary key values (generally integers)
3798   # and values being an array of current model objects with that specific foreign/primary key
3799   key_hash = {}
3800       
3801   # Populate the key_hash entry for each association being eagerly loaded
3802   reflections.each do |r|
3803     if key = r.eager_loader_key
3804       # key_hash for this key has already been populated,
3805       # skip populating again so that duplicate values
3806       # aren't added.
3807       unless id_map = key_hash[key]
3808         id_map = key_hash[key] = Hash.new{|h,k| h[k] = []}
3809 
3810         # Supporting both single (Symbol) and composite (Array) keys.
3811         a.each do |rec|
3812           case key
3813           when Array
3814             if (k = key.map{|k2| rec.get_column_value(k2)}) && k.all?
3815               id_map[k] << rec
3816             end
3817           when Symbol
3818             if k = rec.get_column_value(key)
3819               id_map[k] << rec
3820             end
3821           else
3822             raise Error, "unhandled eager_loader_key #{key.inspect} for association #{r[:name]}"
3823           end
3824         end
3825       end
3826     else
3827       id_map = nil
3828     end
3829   
3830     associations = eager_assoc[r[:name]]
3831     if associations.respond_to?(:call)
3832       eager_block = associations
3833       associations = OPTS
3834     elsif associations.is_a?(Hash) && associations.length == 1 && (pr_assoc = associations.to_a.first) && pr_assoc.first.respond_to?(:call)
3835       eager_block, associations = pr_assoc
3836     end
3837 
3838     eager_load_data[r[:eager_loader]] = {:key_hash=>key_hash, :rows=>a, :associations=>associations, :self=>self, :eager_block=>eager_block, :id_map=>id_map}
3839   end
3840 
3841   eager_load_data
3842 end

Prepare a hash loaders and eager options which will be used to implement the eager loading.