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Yorick Peterse authored
Process.clock_gettime allows getting the real time in nanoseconds as well as allowing one to get a monotonic timestamp. This offers greater accuracy without the overhead of having to allocate a Time instance. In general using Time.now/Time.new is about 2x slower than using Process.clock_gettime(). For example: require 'benchmark/ips' Benchmark.ips do |bench| bench.report 'Time.now' do Time.now.to_f end bench.report 'clock_gettime' do Process.clock_gettime(Process::CLOCK_MONOTONIC, :millisecond) end bench.compare! end Running this benchmark gives: Calculating ------------------------------------- Time.now 108.052k i/100ms clock_gettime 125.984k i/100ms ------------------------------------------------- Time.now 2.343M (± 7.1%) i/s - 11.670M clock_gettime 4.979M (± 0.8%) i/s - 24.945M Comparison: clock_gettime: 4979393.8 i/s Time.now: 2342986.8 i/s - 2.13x slower Another benefit of using Process.clock_gettime() is that we can simplify the code a bit since it can give timestamps in nanoseconds out of the box.Yorick Peterse authoredProcess.clock_gettime allows getting the real time in nanoseconds as well as allowing one to get a monotonic timestamp. This offers greater accuracy without the overhead of having to allocate a Time instance. In general using Time.now/Time.new is about 2x slower than using Process.clock_gettime(). For example: require 'benchmark/ips' Benchmark.ips do |bench| bench.report 'Time.now' do Time.now.to_f end bench.report 'clock_gettime' do Process.clock_gettime(Process::CLOCK_MONOTONIC, :millisecond) end bench.compare! end Running this benchmark gives: Calculating ------------------------------------- Time.now 108.052k i/100ms clock_gettime 125.984k i/100ms ------------------------------------------------- Time.now 2.343M (± 7.1%) i/s - 11.670M clock_gettime 4.979M (± 0.8%) i/s - 24.945M Comparison: clock_gettime: 4979393.8 i/s Time.now: 2342986.8 i/s - 2.13x slower Another benefit of using Process.clock_gettime() is that we can simplify the code a bit since it can give timestamps in nanoseconds out of the box.
system.rb 1.71 KiB
module Gitlab
module Metrics
# Module for gathering system/process statistics such as the memory usage.
#
# This module relies on the /proc filesystem being available. If /proc is
# not available the methods of this module will be stubbed.
module System
if File.exist?('/proc')
# Returns the current process' memory usage in bytes.
def self.memory_usage
mem = 0
match = File.read('/proc/self/status').match(/VmRSS:\s+(\d+)/)
if match and match[1]
mem = match[1].to_f * 1024
end
mem
end
def self.file_descriptor_count
Dir.glob('/proc/self/fd/*').length
end
else
def self.memory_usage
0.0
end
def self.file_descriptor_count
0
end
end
# THREAD_CPUTIME is not supported on OS X
if Process.const_defined?(:CLOCK_THREAD_CPUTIME_ID)
def self.cpu_time
Process.
clock_gettime(Process::CLOCK_THREAD_CPUTIME_ID, :millisecond).to_f
end
else
def self.cpu_time
Process.
clock_gettime(Process::CLOCK_PROCESS_CPUTIME_ID, :millisecond).to_f
end
end
# Returns the current real time in a given precision.
#
# Returns the time as a Float.
def self.real_time(precision = :millisecond)
Process.clock_gettime(Process::CLOCK_REALTIME, precision).to_f
end
# Returns the current monotonic clock time in a given precision.
#
# Returns the time as a Float.
def self.monotonic_time(precision = :millisecond)
Process.clock_gettime(Process::CLOCK_MONOTONIC, precision).to_f
end
end
end
end