This module allows to trace object allocation.
This feature is similar to https://github.com/SamSaffron/memory_profiler and https://github.com/srawlins/allocation_stats. But this feature focused on `age' of objects.
This gem was separated from gc_tracer.gem.
Add this line to your application's Gemfile:
gem 'allocation_tracer'
And then execute:
$ bundle
Or install it yourself as:
$ gem install allocation_tracer
You can trace allocation and aggregate information. Information includes:
- count - how many objects are created.
- total_age - total age of objects which created here
- max_age - age of longest living object created here
- min_age - age of shortest living object created here
Age of Object can be calculated by this formula: [current GC count] - [birth time GC count]
For example:
require 'allocation_tracer'
require 'pp'
pp ObjectSpace::AllocationTracer.trace{
50_000.times{|i|
i.to_s
i.to_s
i.to_s
}
}
will show
{["test.rb", 6]=>[50000, 0, 47440, 0, 1, 0],
["test.rb", 7]=>[50000, 4, 47452, 0, 6, 0],
["test.rb", 8]=>[50000, 7, 47456, 0, 6, 0]}
In this case,
- 50,000 objects are created at `test.rb:6' and
- 0 old objects created.
- 47,440 is total age of objects created at this line (average age of object created at this line is 47440/50000 = 0.9488).
- 0 is minimum age
- 1 is maximum age.
- 0 total memory consumption without RVALUE
You can also specify `type' in GC::Tracer.setup_allocation_tracing() to specify what should be keys to aggregate like that.
require 'allocation_tracer'
require 'pp'
ObjectSpace::AllocationTracer.setup(%i{path line type})
result = ObjectSpace::AllocationTracer.trace do
50_000.times{|i|
a = [i.to_s]
b = {i.to_s => nil}
c = (i.to_s .. i.to_s)
}
end
pp result
and you will get:
{["test.rb", 8, :T_STRING]=>[50000, 15, 49165, 0, 16, 0],
["test.rb", 8, :T_ARRAY]=>[50000, 12, 49134, 0, 16, 0],
["test.rb", 9, :T_STRING]=>[100000, 27, 98263, 0, 16, 0],
["test.rb", 9, :T_HASH]=>[50000, 16, 49147, 0, 16, 8998848],
["test.rb", 10, :T_STRING]=>[100000, 36, 98322, 0, 16, 0],
["test.rb", 10, :T_STRUCT]=>[50000, 16, 49147, 0, 16, 0]}
Interestingly, you can not see array creations in a middle of block:
require 'allocation_tracer'
require 'pp'
ObjectSpace::AllocationTracer.setup(%i{path line type})
result = ObjectSpace::AllocationTracer.trace do
50_000.times{|i|
[i.to_s]
nil
}
end
pp result
and it prints:
{["test.rb", 8, :T_STRING]=>[25015, 5, 16299, 0, 2, 0]}
There are only string creation. This is because unused array creation is ommitted by optimizer.
Simply you can require `allocation_tracer/trace' to start allocation tracer and output the aggregated information into stdout at the end of program.
require 'allocation_tracer/trace'
# Run your program here
50_000.times{|i|
i.to_s
i.to_s
i.to_s
}
and you will see:
path line count old_count total_age min_age max_age total_memsize
...rubygems/core_ext/kernel_require.rb 55 18 1 23 1 6 358
...lib/allocation_tracer/lib/allocation_tracer/trace.rb 6 2 012 6 6 0
test.rb 0 1 0 0 0 0 0
test.rb 5 50000 4 41492 0 5 0
test.rb 6 50000 3 41490 0 5 0
test.rb 7 50000 7 41497 0 5 0
(tab separated columns)
Allocation tracer collects the total number of allocations and frees during the
trace
block. After the block finishes executing, you can examine the total
number of allocations / frees per object type like this:
require 'allocation_tracer'
ObjectSpace::AllocationTracer.trace do
1000.times {
["foo", {}]
}
end
p allocated: ObjectSpace::AllocationTracer.allocated_count_table
p freed: ObjectSpace::AllocationTracer.freed_count_table
The output of the script will look like this:
{:allocated=>{:T_NONE=>0, :T_OBJECT=>0, :T_CLASS=>0, :T_MODULE=>0, :T_FLOAT=>0, :T_STRING=>1000, :T_REGEXP=>0, :T_ARRAY=>1000, :T_HASH=>1000, :T_STRUCT=>0, :T_BIGNUM=>0, :T_FILE=>0, :T_DATA=>0, :T_MATCH=>0, :T_COMPLEX=>0, :T_RATIONAL=>0, :unknown=>0, :T_NIL=>0, :T_TRUE=>0, :T_FALSE=>0, :T_SYMBOL=>0, :T_FIXNUM=>0, :T_UNDEF=>0, :T_NODE=>0, :T_ICLASS=>0, :T_ZOMBIE=>0}}
{:freed=>{:T_NONE=>0, :T_OBJECT=>0, :T_CLASS=>0, :T_MODULE=>0, :T_FLOAT=>0, :T_STRING=>1871, :T_REGEXP=>41, :T_ARRAY=>226, :T_HASH=>7, :T_STRUCT=>41, :T_BIGNUM=>0, :T_FILE=>50, :T_DATA=>25, :T_MATCH=>47, :T_COMPLEX=>0, :T_RATIONAL=>0, :unknown=>0, :T_NIL=>0, :T_TRUE=>0, :T_FALSE=>0, :T_SYMBOL=>0, :T_FIXNUM=>0, :T_UNDEF=>0, :T_NODE=>932, :T_ICLASS=>0, :T_ZOMBIE=>0}}
You can collect lifetime statistics with ObjectSpace::AllocationTracer.lifetime_table method.
require 'pp'
require 'allocation_tracer'
ObjectSpace::AllocationTracer.lifetime_table_setup true
result = ObjectSpace::AllocationTracer.trace do
100000.times{
Object.new
''
}
end
pp ObjectSpace::AllocationTracer.lifetime_table
will show
{:T_OBJECT=>[3434, 96563, 0, 0, 1, 0, 0, 2],
:T_STRING=>[3435, 96556, 2, 1, 1, 1, 1, 1, 2]}
This output means that the age of 3434 T_OBJECT objects are 0, 96563 objects are 1 and 2 objects are 7. Also the age of 3435 T_STRING objects are 0, 96556 objects are 1 and so on.
Note that these numbers includes living objects and dead objects. For dead objects, age means lifetime. For living objects, age means current age.
You can use AllocationTracer via rack middleware.
require 'rack'
require 'sinatra'
require 'rack/allocation_tracer'
use Rack::AllocationTracerMiddleware
get '/' do
'foo'
end
When you access to http://host/allocation_tracer/
then you can see a table of allocation tracer.
You can access the following pages.
- http://host/allocation_tracer/
- http://host/allocation_tracer/allocated_count_table
- http://host/allocation_tracer/freed_count_table_page
- http://host/allocation_tracer/lifetime_table
The following pages are demonstration Rails app on Heroku environment.
- http://protected-journey-7206.herokuapp.com/allocation_tracer/
- http://protected-journey-7206.herokuapp.com/allocation_tracer/allocated_count_table
- http://protected-journey-7206.herokuapp.com/allocation_tracer/freed_count_table_page
- http://protected-journey-7206.herokuapp.com/allocation_tracer/lifetime_table
Source code of this demo app is https://github.com/ko1/tracer_demo_rails_app. You only need to modify like https://github.com/ko1/tracer_demo_rails_app/blob/master/config.ru to use it on Rails.
Compile the code:
$ rake compile
Run the tests:
$ rake spec
- Fork it ( http://github.com/ko1/allocation_tracer/fork )
- Create your feature branch (
git checkout -b my-new-feature
) - Commit your changes (
git commit -am 'Add some feature'
) - Push to the branch (
git push origin my-new-feature
) - Create new Pull Request
Koichi Sasada from Heroku, Inc.