gitlab-org--gitlab-foss/lib/gitlab/sherlock/line_profiler.rb
Douwe Maan 1fe7501b49 Revert "Prefer leading style for Style/DotPosition"
This reverts commit cb10b725c8929b8b4460f89c9d96c773af39ba6b.
2017-02-23 09:33:05 -06:00

98 lines
2.7 KiB
Ruby

module Gitlab
module Sherlock
# Class for profiling code on a per line basis.
#
# The LineProfiler class can be used to profile code on per line basis
# without littering your code with Ruby implementation specific profiling
# methods.
#
# This profiler only includes samples taking longer than a given threshold
# and those that occur in the actual application (e.g. files from Gems are
# ignored).
class LineProfiler
# The minimum amount of time that has to be spent in a file for it to be
# included in a list of samples.
MINIMUM_DURATION = 10.0
# Profiles the given block.
#
# Example:
#
# profiler = LineProfiler.new
#
# retval, samples = profiler.profile do
# "cats are amazing"
# end
#
# retval # => "cats are amazing"
# samples # => [#<Gitlab::Sherlock::FileSample ...>, ...]
#
# Returns an Array containing the block's return value and an Array of
# FileSample objects.
def profile(&block)
if mri?
profile_mri(&block)
else
raise NotImplementedError,
'Line profiling is not supported on this platform'
end
end
# Profiles the given block using rblineprof (MRI only).
def profile_mri
require 'rblineprof'
retval = nil
samples = lineprof(/^#{Rails.root.to_s}/) { retval = yield }
file_samples = aggregate_rblineprof(samples)
[retval, file_samples]
end
# Returns an Array of file samples based on the output of rblineprof.
#
# lineprof_stats - A Hash containing rblineprof statistics on a per file
# basis.
#
# Returns an Array of FileSample objects.
def aggregate_rblineprof(lineprof_stats)
samples = []
lineprof_stats.each do |(file, stats)|
source_lines = File.read(file).each_line.to_a
line_samples = []
total_duration = microsec_to_millisec(stats[0][0])
total_events = stats[0][2]
next if total_duration <= MINIMUM_DURATION
stats[1..-1].each_with_index do |data, index|
next unless source_lines[index]
duration = microsec_to_millisec(data[0])
events = data[2]
line_samples << LineSample.new(duration, events)
end
samples << FileSample.
new(file, line_samples, total_duration, total_events)
end
samples
end
private
def microsec_to_millisec(microsec)
microsec / 1000.0
end
def mri?
RUBY_ENGINE == 'ruby'
end
end
end
end