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English.rb File 5722 bytes October 02 2009 10:45:39.
abbrev.rb File 2627 bytes May 18 2011 21:19:18.
base64.rb File 2694 bytes October 02 2009 10:45:39.
benchmark.rb File 18431 bytes June 28 2011 06:09:46.
cgi.rb File 9519 bytes May 16 2011 21:21:35.
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complex.rb File 380 bytes August 16 2009 15:34:35.
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Reading File: //opt//alt/ruby19//lib64/ruby/1.9.1/benchmark.rb

#--
# benchmark.rb - a performance benchmarking library
#
# $Id: benchmark.rb 32269 2011-06-28 06:09:46Z naruse $
#
# Created by Gotoken (gotoken@notwork.org).
#
# Documentation by Gotoken (original RD), Lyle Johnson (RDoc conversion), and
# Gavin Sinclair (editing).
#++
#
# == Overview
#
# The Benchmark module provides methods for benchmarking Ruby code, giving
# detailed reports on the time taken for each task.
#

# The Benchmark module provides methods to measure and report the time
# used to execute Ruby code.
#
# * Measure the time to construct the string given by the expression
#   <tt>"a"*1_000_000</tt>:
#
#       require 'benchmark'
#
#       puts Benchmark.measure { "a"*1_000_000 }
#
#   On my machine (FreeBSD 3.2 on P5, 100MHz) this generates:
#
#       1.166667   0.050000   1.216667 (  0.571355)
#
#   This report shows the user CPU time, system CPU time, the sum of
#   the user and system CPU times, and the elapsed real time. The unit
#   of time is seconds.
#
# * Do some experiments sequentially using the #bm method:
#
#       require 'benchmark'
#
#       n = 50000
#       Benchmark.bm do |x|
#         x.report { for i in 1..n; a = "1"; end }
#         x.report { n.times do   ; a = "1"; end }
#         x.report { 1.upto(n) do ; a = "1"; end }
#       end
#
#   The result:
#
#              user     system      total        real
#          1.033333   0.016667   1.016667 (  0.492106)
#          1.483333   0.000000   1.483333 (  0.694605)
#          1.516667   0.000000   1.516667 (  0.711077)
#
# * Continuing the previous example, put a label in each report:
#
#       require 'benchmark'
#
#       n = 50000
#       Benchmark.bm(7) do |x|
#         x.report("for:")   { for i in 1..n; a = "1"; end }
#         x.report("times:") { n.times do   ; a = "1"; end }
#         x.report("upto:")  { 1.upto(n) do ; a = "1"; end }
#       end
#
# The result:
#
#                     user     system      total        real
#        for:     1.050000   0.000000   1.050000 (  0.503462)
#        times:   1.533333   0.016667   1.550000 (  0.735473)
#        upto:    1.500000   0.016667   1.516667 (  0.711239)
#
#
# * The times for some benchmarks depend on the order in which items
#   are run.  These differences are due to the cost of memory
#   allocation and garbage collection. To avoid these discrepancies,
#   the #bmbm method is provided.  For example, to compare ways to
#   sort an array of floats:
#
#       require 'benchmark'
#
#       array = (1..1000000).map { rand }
#
#       Benchmark.bmbm do |x|
#         x.report("sort!") { array.dup.sort! }
#         x.report("sort")  { array.dup.sort  }
#       end
#
#   The result:
#
#        Rehearsal -----------------------------------------
#        sort!  11.928000   0.010000  11.938000 ( 12.756000)
#        sort   13.048000   0.020000  13.068000 ( 13.857000)
#        ------------------------------- total: 25.006000sec
#
#                    user     system      total        real
#        sort!  12.959000   0.010000  12.969000 ( 13.793000)
#        sort   12.007000   0.000000  12.007000 ( 12.791000)
#
#
# * Report statistics of sequential experiments with unique labels,
#   using the #benchmark method:
#
#       require 'benchmark'
#       include Benchmark         # we need the CAPTION and FORMAT constants
#
#       n = 50000
#       Benchmark.benchmark(CAPTION, 7, FORMAT, ">total:", ">avg:") do |x|
#         tf = x.report("for:")   { for i in 1..n; a = "1"; end }
#         tt = x.report("times:") { n.times do   ; a = "1"; end }
#         tu = x.report("upto:")  { 1.upto(n) do ; a = "1"; end }
#         [tf+tt+tu, (tf+tt+tu)/3]
#       end
#
#   The result:
#
#                     user     system      total        real
#        for:     1.016667   0.016667   1.033333 (  0.485749)
#        times:   1.450000   0.016667   1.466667 (  0.681367)
#        upto:    1.533333   0.000000   1.533333 (  0.722166)
#        >total:  4.000000   0.033333   4.033333 (  1.889282)
#        >avg:    1.333333   0.011111   1.344444 (  0.629761)

module Benchmark

  BENCHMARK_VERSION = "2002-04-25" #:nodoc"

  # Invokes the block with a <tt>Benchmark::Report</tt> object, which
  # may be used to collect and report on the results of individual
  # benchmark tests. Reserves <i>label_width</i> leading spaces for
  # labels on each line. Prints _caption_ at the top of the
  # report, and uses _format_ to format each line.
  # Returns an array of Benchmark::Tms objects.
  #
  # If the block returns an array of
  # <tt>Benchmark::Tms</tt> objects, these will be used to format
  # additional lines of output. If _label_ parameters are
  # given, these are used to label these extra lines.
  #
  # _Note_: Other methods provide a simpler interface to this one, and are
  # suitable for nearly all benchmarking requirements.  See the examples in
  # Benchmark, and the #bm and #bmbm methods.
  #
  # Example:
  #
  #     require 'benchmark'
  #     include Benchmark          # we need the CAPTION and FORMAT constants
  #
  #     n = 50000
  #     Benchmark.benchmark(CAPTION, 7, FORMAT, ">total:", ">avg:") do |x|
  #       tf = x.report("for:")   { for i in 1..n; a = "1"; end }
  #       tt = x.report("times:") { n.times do   ; a = "1"; end }
  #       tu = x.report("upto:")  { 1.upto(n) do ; a = "1"; end }
  #       [tf+tt+tu, (tf+tt+tu)/3]
  #     end
  #
  # <i>Generates:</i>
  #
  #                     user     system      total        real
  #        for:     1.016667   0.016667   1.033333 (  0.485749)
  #        times:   1.450000   0.016667   1.466667 (  0.681367)
  #        upto:    1.533333   0.000000   1.533333 (  0.722166)
  #        >total:  4.000000   0.033333   4.033333 (  1.889282)
  #        >avg:    1.333333   0.011111   1.344444 (  0.629761)
  #

  def benchmark(caption = "", label_width = nil, format = nil, *labels) # :yield: report
    sync = STDOUT.sync
    STDOUT.sync = true
    label_width ||= 0
    label_width += 1
    format ||= FORMAT
    print ' '*label_width + caption
    report = Report.new(label_width, format)
    results = yield(report)
    Array === results and results.grep(Tms).each {|t|
      print((labels.shift || t.label || "").ljust(label_width), t.format(format))
    }
    report.list
  ensure
    STDOUT.sync = sync unless sync.nil?
  end


  # A simple interface to the #benchmark method, #bm is generates sequential reports
  # with labels.  The parameters have the same meaning as for #benchmark.
  #
  #     require 'benchmark'
  #
  #     n = 50000
  #     Benchmark.bm(7) do |x|
  #       x.report("for:")   { for i in 1..n; a = "1"; end }
  #       x.report("times:") { n.times do   ; a = "1"; end }
  #       x.report("upto:")  { 1.upto(n) do ; a = "1"; end }
  #     end
  #
  # <i>Generates:</i>
  #
  #                     user     system      total        real
  #        for:     1.050000   0.000000   1.050000 (  0.503462)
  #        times:   1.533333   0.016667   1.550000 (  0.735473)
  #        upto:    1.500000   0.016667   1.516667 (  0.711239)
  #

  def bm(label_width = 0, *labels, &blk) # :yield: report
    benchmark(CAPTION, label_width, FORMAT, *labels, &blk)
  end


  # Sometimes benchmark results are skewed because code executed
  # earlier encounters different garbage collection overheads than
  # that run later. #bmbm attempts to minimize this effect by running
  # the tests twice, the first time as a rehearsal in order to get the
  # runtime environment stable, the second time for
  # real. <tt>GC.start</tt> is executed before the start of each of
  # the real timings; the cost of this is not included in the
  # timings. In reality, though, there's only so much that #bmbm can
  # do, and the results are not guaranteed to be isolated from garbage
  # collection and other effects.
  #
  # Because #bmbm takes two passes through the tests, it can
  # calculate the required label width.
  #
  #       require 'benchmark'
  #
  #       array = (1..1000000).map { rand }
  #
  #       Benchmark.bmbm do |x|
  #         x.report("sort!") { array.dup.sort! }
  #         x.report("sort")  { array.dup.sort  }
  #       end
  #
  # <i>Generates:</i>
  #
  #        Rehearsal -----------------------------------------
  #        sort!  11.928000   0.010000  11.938000 ( 12.756000)
  #        sort   13.048000   0.020000  13.068000 ( 13.857000)
  #        ------------------------------- total: 25.006000sec
  #
  #                    user     system      total        real
  #        sort!  12.959000   0.010000  12.969000 ( 13.793000)
  #        sort   12.007000   0.000000  12.007000 ( 12.791000)
  #
  # #bmbm yields a Benchmark::Job object and returns an array of
  # Benchmark::Tms objects.
  #
  def bmbm(width = 0, &blk) # :yield: job
    job = Job.new(width)
    yield(job)
    width = job.width + 1
    sync = STDOUT.sync
    STDOUT.sync = true

    # rehearsal
    puts 'Rehearsal '.ljust(width+CAPTION.length,'-')
    ets = job.list.inject(Tms.new) { |sum,(label,item)|
      print label.ljust(width)
      res = Benchmark.measure(&item)
      print res.format
      sum + res
    }.format("total: %tsec")
    print " #{ets}\n\n".rjust(width+CAPTION.length+2,'-')

    # take
    print ' '*width + CAPTION
    job.list.map { |label,item|
      GC.start
      print label.ljust(width)
      Benchmark.measure(label, &item).tap { |res| print res }
    }
  ensure
    STDOUT.sync = sync unless sync.nil?
  end

  #
  # Returns the time used to execute the given block as a
  # Benchmark::Tms object.
  #
  def measure(label = "") # :yield:
    t0, r0 = Process.times, Time.now
    yield
    t1, r1 = Process.times, Time.now
    Benchmark::Tms.new(t1.utime  - t0.utime,
                       t1.stime  - t0.stime,
                       t1.cutime - t0.cutime,
                       t1.cstime - t0.cstime,
                       r1.to_f - r0.to_f,
                       label)
  end

  #
  # Returns the elapsed real time used to execute the given block.
  #
  def realtime # :yield:
    r0 = Time.now
    yield
    Time.now - r0
  end

  module_function :benchmark, :measure, :realtime, :bm, :bmbm

  #
  # A Job is a sequence of labelled blocks to be processed by the
  # Benchmark.bmbm method.  It is of little direct interest to the user.
  #
  class Job # :nodoc:
    #
    # Returns an initialized Job instance.
    # Usually, one doesn't call this method directly, as new
    # Job objects are created by the #bmbm method.
    # _width_ is a initial value for the label offset used in formatting;
    # the #bmbm method passes its _width_ argument to this constructor.
    #
    def initialize(width)
      @width = width
      @list = []
    end

    #
    # Registers the given label and block pair in the job list.
    #
    def item(label = "", &blk) # :yield:
      raise ArgumentError, "no block" unless block_given?
      label = label.to_s
      w = label.length
      @width = w if @width < w
      @list << [label, blk]
      self
    end

    alias report item

    # An array of 2-element arrays, consisting of label and block pairs.
    attr_reader :list

    # Length of the widest label in the #list.
    attr_reader :width
  end

  #
  # This class is used by the Benchmark.benchmark and Benchmark.bm methods.
  # It is of little direct interest to the user.
  #
  class Report # :nodoc:
    #
    # Returns an initialized Report instance.
    # Usually, one doesn't call this method directly, as new
    # Report objects are created by the #benchmark and #bm methods.
    # _width_ and _format_ are the label offset and
    # format string used by Tms#format.
    #
    def initialize(width = 0, format = nil)
      @width, @format, @list = width, format, []
    end

    #
    # Prints the _label_ and measured time for the block,
    # formatted by _format_. See Tms#format for the
    # formatting rules.
    #
    def item(label = "", *format, &blk) # :yield:
      print label.to_s.ljust(@width)
      @list << res = Benchmark.measure(label, &blk)
      print res.format(@format, *format)
      res
    end

    alias report item

    # An array of Benchmark::Tms objects representing each item.
    attr_reader :list
  end



  #
  # A data object, representing the times associated with a benchmark
  # measurement.
  #
  class Tms

    # Default caption, see also Benchmark::CAPTION
    CAPTION = "      user     system      total        real\n"

    # Default format string, see also Benchmark::FORMAT
    FORMAT = "%10.6u %10.6y %10.6t %10.6r\n"

    # User CPU time
    attr_reader :utime

    # System CPU time
    attr_reader :stime

    # User CPU time of children
    attr_reader :cutime

    # System CPU time of children
    attr_reader :cstime

    # Elapsed real time
    attr_reader :real

    # Total time, that is _utime_ + _stime_ + _cutime_ + _cstime_
    attr_reader :total

    # Label
    attr_reader :label

    #
    # Returns an initialized Tms object which has
    # _utime_ as the user CPU time, _stime_ as the system CPU time,
    # _cutime_ as the children's user CPU time, _cstime_ as the children's
    # system CPU time, _real_ as the elapsed real time and _label_ as the label.
    #
    def initialize(utime = 0.0, stime = 0.0, cutime = 0.0, cstime = 0.0, real = 0.0, label = nil)
      @utime, @stime, @cutime, @cstime, @real, @label = utime, stime, cutime, cstime, real, label.to_s
      @total = @utime + @stime + @cutime + @cstime
    end

    #
    # Returns a new Tms object whose times are the sum of the times for this
    # Tms object, plus the time required to execute the code block (_blk_).
    #
    def add(&blk) # :yield:
      self + Benchmark.measure(&blk)
    end

    #
    # An in-place version of #add.
    #
    def add!(&blk)
      t = Benchmark.measure(&blk)
      @utime  = utime + t.utime
      @stime  = stime + t.stime
      @cutime = cutime + t.cutime
      @cstime = cstime + t.cstime
      @real   = real + t.real
      self
    end

    #
    # Returns a new Tms object obtained by memberwise summation
    # of the individual times for this Tms object with those of the other
    # Tms object.
    # This method and #/() are useful for taking statistics.
    #
    def +(other); memberwise(:+, other) end

    #
    # Returns a new Tms object obtained by memberwise subtraction
    # of the individual times for the other Tms object from those of this
    # Tms object.
    #
    def -(other); memberwise(:-, other) end

    #
    # Returns a new Tms object obtained by memberwise multiplication
    # of the individual times for this Tms object by _x_.
    #
    def *(x); memberwise(:*, x) end

    #
    # Returns a new Tms object obtained by memberwise division
    # of the individual times for this Tms object by _x_.
    # This method and #+() are useful for taking statistics.
    #
    def /(x); memberwise(:/, x) end

    #
    # Returns the contents of this Tms object as
    # a formatted string, according to a format string
    # like that passed to Kernel.format. In addition, #format
    # accepts the following extensions:
    #
    # <tt>%u</tt>::     Replaced by the user CPU time, as reported by Tms#utime.
    # <tt>%y</tt>::     Replaced by the system CPU time, as reported by #stime (Mnemonic: y of "s*y*stem")
    # <tt>%U</tt>::     Replaced by the children's user CPU time, as reported by Tms#cutime
    # <tt>%Y</tt>::     Replaced by the children's system CPU time, as reported by Tms#cstime
    # <tt>%t</tt>::     Replaced by the total CPU time, as reported by Tms#total
    # <tt>%r</tt>::     Replaced by the elapsed real time, as reported by Tms#real
    # <tt>%n</tt>::     Replaced by the label string, as reported by Tms#label (Mnemonic: n of "*n*ame")
    #
    # If _format_ is not given, FORMAT is used as default value, detailing the
    # user, system and real elapsed time.
    #
    def format(format = nil, *args)
      str = (format || FORMAT).dup
      str.gsub!(/(%[-+\.\d]*)n/) { "#{$1}s" % label }
      str.gsub!(/(%[-+\.\d]*)u/) { "#{$1}f" % utime }
      str.gsub!(/(%[-+\.\d]*)y/) { "#{$1}f" % stime }
      str.gsub!(/(%[-+\.\d]*)U/) { "#{$1}f" % cutime }
      str.gsub!(/(%[-+\.\d]*)Y/) { "#{$1}f" % cstime }
      str.gsub!(/(%[-+\.\d]*)t/) { "#{$1}f" % total }
      str.gsub!(/(%[-+\.\d]*)r/) { "(#{$1}f)" % real }
      format ? str % args : str
    end

    #
    # Same as #format.
    #
    def to_s
      format
    end

    #
    # Returns a new 6-element array, consisting of the
    # label, user CPU time, system CPU time, children's
    # user CPU time, children's system CPU time and elapsed
    # real time.
    #
    def to_a
      [@label, @utime, @stime, @cutime, @cstime, @real]
    end

    protected
    
    #
    # Returns a new Tms object obtained by memberwise operation +op+
    # of the individual times for this Tms object with those of the other
    # Tms object.
    #
    # +op+ can be a mathematical operation such as <tt>+</tt>, <tt>-</tt>,
    # <tt>*</tt>, <tt>/</tt>
    #
    def memberwise(op, x)
      case x
      when Benchmark::Tms
        Benchmark::Tms.new(utime.__send__(op, x.utime),
                           stime.__send__(op, x.stime),
                           cutime.__send__(op, x.cutime),
                           cstime.__send__(op, x.cstime),
                           real.__send__(op, x.real)
                           )
      else
        Benchmark::Tms.new(utime.__send__(op, x),
                           stime.__send__(op, x),
                           cutime.__send__(op, x),
                           cstime.__send__(op, x),
                           real.__send__(op, x)
                           )
      end
    end
  end

  # The default caption string (heading above the output times).
  CAPTION = Benchmark::Tms::CAPTION

  # The default format string used to display times.  See also Benchmark::Tms#format.
  FORMAT = Benchmark::Tms::FORMAT
end

if __FILE__ == $0
  include Benchmark

  n = ARGV[0].to_i.nonzero? || 50000
  puts %Q([#{n} times iterations of `a = "1"'])
  benchmark("       " + CAPTION, 7, FORMAT) do |x|
    x.report("for:")   {for _ in 1..n; _ = "1"; end} # Benchmark.measure
    x.report("times:") {n.times do   ; _ = "1"; end}
    x.report("upto:")  {1.upto(n) do ; _ = "1"; end}
  end

  benchmark do
    [
      measure{for _ in 1..n; _ = "1"; end},  # Benchmark.measure
      measure{n.times do   ; _ = "1"; end},
      measure{1.upto(n) do ; _ = "1"; end}
    ]
  end
end

SILENT KILLER Tool