1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
|
require "active_record/relation/batches/batch_enumerator"
module ActiveRecord
module Batches
ORDER_IGNORE_MESSAGE = "Scoped order is ignored, it's forced to be batch order."
# Looping through a collection of records from the database
# (using the Scoping::Named::ClassMethods.all method, for example)
# is very inefficient since it will try to instantiate all the objects at once.
#
# In that case, batch processing methods allow you to work
# with the records in batches, thereby greatly reducing memory consumption.
#
# The #find_each method uses #find_in_batches with a batch size of 1000 (or as
# specified by the +:batch_size+ option).
#
# Person.find_each do |person|
# person.do_awesome_stuff
# end
#
# Person.where("age > 21").find_each do |person|
# person.party_all_night!
# end
#
# If you do not provide a block to #find_each, it will return an Enumerator
# for chaining with other methods:
#
# Person.find_each.with_index do |person, index|
# person.award_trophy(index + 1)
# end
#
# ==== Options
# * <tt>:batch_size</tt> - Specifies the size of the batch. Defaults to 1000.
# * <tt>:start</tt> - Specifies the primary key value to start from, inclusive of the value.
# * <tt>:finish</tt> - Specifies the primary key value to end at, inclusive of the value.
# * <tt>:error_on_ignore</tt> - Overrides the application config to specify if an error should be raised when
# an order is present in the relation.
#
# Limits are honored, and if present there is no requirement for the batch
# size: it can be less than, equal to, or greater than the limit.
#
# The options +start+ and +finish+ are especially useful if you want
# multiple workers dealing with the same processing queue. You can make
# worker 1 handle all the records between id 1 and 9999 and worker 2
# handle from 10000 and beyond by setting the +:start+ and +:finish+
# option on each worker.
#
# # Let's process from record 10_000 on.
# Person.find_each(start: 10_000) do |person|
# person.party_all_night!
# end
#
# NOTE: It's not possible to set the order. That is automatically set to
# ascending on the primary key ("id ASC") to make the batch ordering
# work. This also means that this method only works when the primary key is
# orderable (e.g. an integer or string).
#
# NOTE: By its nature, batch processing is subject to race conditions if
# other processes are modifying the database.
def find_each(start: nil, finish: nil, batch_size: 1000, error_on_ignore: nil)
if block_given?
find_in_batches(start: start, finish: finish, batch_size: batch_size, error_on_ignore: error_on_ignore) do |records|
records.each { |record| yield record }
end
else
enum_for(:find_each, start: start, finish: finish, batch_size: batch_size, error_on_ignore: error_on_ignore) do
relation = self
apply_limits(relation, start, finish).size
end
end
end
# Yields each batch of records that was found by the find options as
# an array.
#
# Person.where("age > 21").find_in_batches do |group|
# sleep(50) # Make sure it doesn't get too crowded in there!
# group.each { |person| person.party_all_night! }
# end
#
# If you do not provide a block to #find_in_batches, it will return an Enumerator
# for chaining with other methods:
#
# Person.find_in_batches.with_index do |group, batch|
# puts "Processing group ##{batch}"
# group.each(&:recover_from_last_night!)
# end
#
# To be yielded each record one by one, use #find_each instead.
#
# ==== Options
# * <tt>:batch_size</tt> - Specifies the size of the batch. Defaults to 1000.
# * <tt>:start</tt> - Specifies the primary key value to start from, inclusive of the value.
# * <tt>:finish</tt> - Specifies the primary key value to end at, inclusive of the value.
# * <tt>:error_on_ignore</tt> - Overrides the application config to specify if an error should be raised when
# an order is present in the relation.
#
# Limits are honored, and if present there is no requirement for the batch
# size: it can be less than, equal to, or greater than the limit.
#
# The options +start+ and +finish+ are especially useful if you want
# multiple workers dealing with the same processing queue. You can make
# worker 1 handle all the records between id 1 and 9999 and worker 2
# handle from 10000 and beyond by setting the +:start+ and +:finish+
# option on each worker.
#
# # Let's process from record 10_000 on.
# Person.find_in_batches(start: 10_000) do |group|
# group.each { |person| person.party_all_night! }
# end
#
# NOTE: It's not possible to set the order. That is automatically set to
# ascending on the primary key ("id ASC") to make the batch ordering
# work. This also means that this method only works when the primary key is
# orderable (e.g. an integer or string).
#
# NOTE: By its nature, batch processing is subject to race conditions if
# other processes are modifying the database.
def find_in_batches(start: nil, finish: nil, batch_size: 1000, error_on_ignore: nil)
relation = self
unless block_given?
return to_enum(:find_in_batches, start: start, finish: finish, batch_size: batch_size, error_on_ignore: error_on_ignore) do
total = apply_limits(relation, start, finish).size
(total - 1).div(batch_size) + 1
end
end
in_batches(of: batch_size, start: start, finish: finish, load: true, error_on_ignore: error_on_ignore) do |batch|
yield batch.to_a
end
end
# Yields ActiveRecord::Relation objects to work with a batch of records.
#
# Person.where("age > 21").in_batches do |relation|
# relation.delete_all
# sleep(10) # Throttle the delete queries
# end
#
# If you do not provide a block to #in_batches, it will return a
# BatchEnumerator which is enumerable.
#
# Person.in_batches.each_with_index do |relation, batch_index|
# puts "Processing relation ##{batch_index}"
# relation.delete_all
# end
#
# Examples of calling methods on the returned BatchEnumerator object:
#
# Person.in_batches.delete_all
# Person.in_batches.update_all(awesome: true)
# Person.in_batches.each_record(&:party_all_night!)
#
# ==== Options
# * <tt>:of</tt> - Specifies the size of the batch. Defaults to 1000.
# * <tt>:load</tt> - Specifies if the relation should be loaded. Defaults to false.
# * <tt>:start</tt> - Specifies the primary key value to start from, inclusive of the value.
# * <tt>:finish</tt> - Specifies the primary key value to end at, inclusive of the value.
# * <tt>:error_on_ignore</tt> - Overrides the application config to specify if an error should be raised when
# an order is present in the relation.
#
# Limits are honored, and if present there is no requirement for the batch
# size, it can be less than, equal, or greater than the limit.
#
# The options +start+ and +finish+ are especially useful if you want
# multiple workers dealing with the same processing queue. You can make
# worker 1 handle all the records between id 1 and 9999 and worker 2
# handle from 10000 and beyond by setting the +:start+ and +:finish+
# option on each worker.
#
# # Let's process from record 10_000 on.
# Person.in_batches(start: 10_000).update_all(awesome: true)
#
# An example of calling where query method on the relation:
#
# Person.in_batches.each do |relation|
# relation.update_all('age = age + 1')
# relation.where('age > 21').update_all(should_party: true)
# relation.where('age <= 21').delete_all
# end
#
# NOTE: If you are going to iterate through each record, you should call
# #each_record on the yielded BatchEnumerator:
#
# Person.in_batches.each_record(&:party_all_night!)
#
# NOTE: It's not possible to set the order. That is automatically set to
# ascending on the primary key ("id ASC") to make the batch ordering
# consistent. Therefore the primary key must be orderable, e.g. an integer
# or a string.
#
# NOTE: By its nature, batch processing is subject to race conditions if
# other processes are modifying the database.
def in_batches(of: 1000, start: nil, finish: nil, load: false, error_on_ignore: nil)
relation = self
unless block_given?
return BatchEnumerator.new(of: of, start: start, finish: finish, relation: self)
end
if arel.orders.present?
act_on_ignored_order(error_on_ignore)
end
batch_limit = of
if limit_value
remaining = limit_value
batch_limit = remaining if remaining < batch_limit
end
relation = relation.reorder(batch_order).limit(batch_limit)
relation = apply_limits(relation, start, finish)
batch_relation = relation
loop do
if load
records = batch_relation.records
ids = records.map(&:id)
yielded_relation = where(primary_key => ids)
yielded_relation.load_records(records)
else
ids = batch_relation.pluck(primary_key)
yielded_relation = where(primary_key => ids)
end
break if ids.empty?
primary_key_offset = ids.last
raise ArgumentError.new("Primary key not included in the custom select clause") unless primary_key_offset
yield yielded_relation
break if ids.length < batch_limit
if limit_value
remaining -= ids.length
if remaining == 0
# Saves a useless iteration when the limit is a multiple of the
# batch size.
break
elsif remaining < batch_limit
relation = relation.limit(remaining)
end
end
batch_relation = relation.where(arel_attribute(primary_key).gt(primary_key_offset))
end
end
private
def apply_limits(relation, start, finish)
relation = relation.where(arel_attribute(primary_key).gteq(start)) if start
relation = relation.where(arel_attribute(primary_key).lteq(finish)) if finish
relation
end
def batch_order
"#{quoted_table_name}.#{quoted_primary_key} ASC"
end
def act_on_ignored_order(error_on_ignore)
raise_error = (error_on_ignore.nil? ? klass.error_on_ignored_order : error_on_ignore)
if raise_error
raise ArgumentError.new(ORDER_IGNORE_MESSAGE)
elsif logger
logger.warn(ORDER_IGNORE_MESSAGE)
end
end
end
end
|