twitter-status-bot/.gems/gems/thread_safe-0.3.4/test/test_cache_loops.rb

require 'thread'
require 'thread_safe'
require File.join(File.dirname(__FILE__), "test_helper")

Thread.abort_on_exception = true

class TestCacheTorture < Minitest::Test # this is not run unless RUBY_VERSION =~ /1\.8/ || ENV['TRAVIS'] (see the end of the file)
  THREAD_COUNT  = 40
  KEY_COUNT     = (((2**13) - 2) * 0.75).to_i # get close to the doubling cliff
  LOW_KEY_COUNT = (((2**8 ) - 2) * 0.75).to_i # get close to the doubling cliff

  INITIAL_VALUE_CACHE_SETUP = lambda do |options, keys|
    cache         = ThreadSafe::Cache.new
    initial_value = options[:initial_value] || 0
    keys.each {|key| cache[key] = initial_value}
    cache
  end
  ZERO_VALUE_CACHE_SETUP = lambda do |options, keys|
    INITIAL_VALUE_CACHE_SETUP.call(options.merge(:initial_value => 0), keys)
  end

  DEFAULTS = {
    :key_count    => KEY_COUNT,
    :thread_count => THREAD_COUNT,
    :loop_count   => 1,
    :prelude      => '',
    :cache_setup  => lambda {|options, keys| ThreadSafe::Cache.new}
  }

  LOW_KEY_COUNT_OPTIONS    = {:loop_count => 150,     :key_count => LOW_KEY_COUNT}
  SINGLE_KEY_COUNT_OPTIONS = {:loop_count => 100_000, :key_count => 1}

  def test_concurrency
    code = <<-RUBY_EVAL
      cache[key]
      cache[key] = key
      cache[key]
      cache.delete(key)
    RUBY_EVAL
    do_thread_loop(__method__, code)
  end

  def test_put_if_absent
    do_thread_loop(__method__, 'acc += 1 unless cache.put_if_absent(key, key)', :key_count => 100_000) do |result, cache, options, keys|
      assert_standard_accumulator_test_result(result, cache, options, keys)
    end
  end

  def test_compute_if_absent
    code = 'cache.compute_if_absent(key) { acc += 1; key }'
    do_thread_loop(__method__, code) do |result, cache, options, keys|
      assert_standard_accumulator_test_result(result, cache, options, keys)
    end
  end

  def test_compute_put_if_absent
    code = <<-RUBY_EVAL
      if key.even?
        cache.compute_if_absent(key) { acc += 1; key }
      else
        acc += 1 unless cache.put_if_absent(key, key)
      end
    RUBY_EVAL
    do_thread_loop(__method__, code) do |result, cache, options, keys|
      assert_standard_accumulator_test_result(result, cache, options, keys)
    end
  end

  def test_compute_if_absent_and_present
    compute_if_absent_and_present
    compute_if_absent_and_present(LOW_KEY_COUNT_OPTIONS)
    compute_if_absent_and_present(SINGLE_KEY_COUNT_OPTIONS)
  end

  def test_add_remove_to_zero
    add_remove_to_zero
    add_remove_to_zero(LOW_KEY_COUNT_OPTIONS)
    add_remove_to_zero(SINGLE_KEY_COUNT_OPTIONS)
  end

  def test_add_remove_to_zero_via_merge_pair
    add_remove_to_zero_via_merge_pair
    add_remove_to_zero_via_merge_pair(LOW_KEY_COUNT_OPTIONS)
    add_remove_to_zero_via_merge_pair(SINGLE_KEY_COUNT_OPTIONS)
  end

  def test_add_remove
    add_remove
    add_remove(LOW_KEY_COUNT_OPTIONS)
    add_remove(SINGLE_KEY_COUNT_OPTIONS)
  end

  def test_add_remove_via_compute
    add_remove_via_compute
    add_remove_via_compute(LOW_KEY_COUNT_OPTIONS)
    add_remove_via_compute(SINGLE_KEY_COUNT_OPTIONS)
  end

  def add_remove_via_compute_if_absent_present
    add_remove_via_compute_if_absent_present
    add_remove_via_compute_if_absent_present(LOW_KEY_COUNT_OPTIONS)
    add_remove_via_compute_if_absent_present(SINGLE_KEY_COUNT_OPTIONS)
  end

  def test_add_remove_indiscriminate
    add_remove_indiscriminate
    add_remove_indiscriminate(LOW_KEY_COUNT_OPTIONS)
    add_remove_indiscriminate(SINGLE_KEY_COUNT_OPTIONS)
  end

  def test_count_up
    count_up
    count_up(LOW_KEY_COUNT_OPTIONS)
    count_up(SINGLE_KEY_COUNT_OPTIONS)
  end

  def test_count_up_via_compute
    count_up_via_compute
    count_up_via_compute(LOW_KEY_COUNT_OPTIONS)
    count_up_via_compute(SINGLE_KEY_COUNT_OPTIONS)
  end

  def test_count_up_via_merge_pair
    count_up_via_merge_pair
    count_up_via_merge_pair(LOW_KEY_COUNT_OPTIONS)
    count_up_via_merge_pair(SINGLE_KEY_COUNT_OPTIONS)
  end

  def test_count_race
    prelude = 'change = (rand(2) == 1) ? 1 : -1'
    code = <<-RUBY_EVAL
      v = cache[key]
      acc += change if cache.replace_pair(key, v, v + change)
    RUBY_EVAL
    do_thread_loop(__method__, code, :loop_count => 5, :prelude => prelude, :cache_setup => ZERO_VALUE_CACHE_SETUP) do |result, cache, options, keys|
      result_sum = sum(result)
      assert_equal(sum(keys.map {|key| cache[key]}), result_sum)
      assert_equal(sum(cache.values), result_sum)
      assert_equal(options[:key_count], cache.size)
    end
  end

  def test_get_and_set_new
    code = 'acc += 1 unless cache.get_and_set(key, key)'
    do_thread_loop(__method__, code) do |result, cache, options, keys|
      assert_standard_accumulator_test_result(result, cache, options, keys)
    end
  end

  def test_get_and_set_existing
    code = 'acc += 1 if cache.get_and_set(key, key) == -1'
    do_thread_loop(__method__, code, :cache_setup => INITIAL_VALUE_CACHE_SETUP, :initial_value => -1) do |result, cache, options, keys|
      assert_standard_accumulator_test_result(result, cache, options, keys)
    end
  end

  private
  def compute_if_absent_and_present(opts = {})
    prelude = 'on_present = rand(2) == 1'
    code = <<-RUBY_EVAL
      if on_present
        cache.compute_if_present(key) {|old_value| acc += 1; old_value + 1}
      else
        cache.compute_if_absent(key)  { acc += 1; 1 }
      end
    RUBY_EVAL
    do_thread_loop(__method__, code, {:loop_count => 5, :prelude => prelude}.merge(opts)) do |result, cache, options, keys|
      stored_sum       = 0
      stored_key_count = 0
      keys.each do |k|
        if value = cache[k]
          stored_sum += value
          stored_key_count += 1
        end
      end
      assert_equal(stored_sum, sum(result))
      assert_equal(stored_key_count, cache.size)
    end
  end

  def add_remove(opts = {})
    prelude = 'do_add = rand(2) == 1'
    code = <<-RUBY_EVAL
      if do_add
        acc += 1 unless cache.put_if_absent(key, key)
      else
        acc -= 1 if cache.delete_pair(key, key)
      end
    RUBY_EVAL
    do_thread_loop(__method__, code, {:loop_count => 5, :prelude => prelude}.merge(opts)) do |result, cache, options, keys|
      assert_all_key_mappings_exist(cache, keys, false)
      assert_equal(cache.size, sum(result))
    end
  end

  def add_remove_via_compute(opts = {})
    prelude = 'do_add = rand(2) == 1'
    code = <<-RUBY_EVAL
      cache.compute(key) do |old_value|
        if do_add
          acc += 1 unless old_value
          key
        else
          acc -= 1 if old_value
          nil
        end
      end
    RUBY_EVAL
    do_thread_loop(__method__, code, {:loop_count => 5, :prelude => prelude}.merge(opts)) do |result, cache, options, keys|
      assert_all_key_mappings_exist(cache, keys, false)
      assert_equal(cache.size, sum(result))
    end
  end

  def add_remove_via_compute_if_absent_present(opts = {})
    prelude = 'do_add = rand(2) == 1'
    code = <<-RUBY_EVAL
      if do_add
        cache.compute_if_absent(key)  { acc += 1; key }
      else
        cache.compute_if_present(key) { acc -= 1; nil }
      end
    RUBY_EVAL
    do_thread_loop(__method__, code, {:loop_count => 5, :prelude => prelude}.merge(opts)) do |result, cache, options, keys|
      assert_all_key_mappings_exist(cache, keys, false)
      assert_equal(cache.size, sum(result))
    end
  end

  def add_remove_indiscriminate(opts = {})
    prelude = 'do_add = rand(2) == 1'
    code = <<-RUBY_EVAL
      if do_add
        acc += 1 unless cache.put_if_absent(key, key)
      else
        acc -= 1 if cache.delete(key)
      end
    RUBY_EVAL
    do_thread_loop(__method__, code, {:loop_count => 5, :prelude => prelude}.merge(opts)) do |result, cache, options, keys|
      assert_all_key_mappings_exist(cache, keys, false)
      assert_equal(cache.size, sum(result))
    end
  end

  def count_up(opts = {})
    code = <<-RUBY_EVAL
      v = cache[key]
      acc += 1 if cache.replace_pair(key, v, v + 1)
    RUBY_EVAL
    do_thread_loop(__method__, code, {:loop_count => 5, :cache_setup => ZERO_VALUE_CACHE_SETUP}.merge(opts)) do |result, cache, options, keys|
      assert_count_up(result, cache, options, keys)
    end
  end

  def count_up_via_compute(opts = {})
    code = <<-RUBY_EVAL
      cache.compute(key) do |old_value|
        acc += 1
        old_value ? old_value + 1 : 1
      end
    RUBY_EVAL
    do_thread_loop(__method__, code, {:loop_count => 5}.merge(opts)) do |result, cache, options, keys|
      assert_count_up(result, cache, options, keys)
      result.inject(nil) do |previous_value, next_value| # since compute guarantees atomicity all count ups should be equal
        assert_equal previous_value, next_value if previous_value
        next_value
      end
    end
  end

  def count_up_via_merge_pair(opts = {})
    code = <<-RUBY_EVAL
      cache.merge_pair(key, 1) {|old_value| old_value + 1}
    RUBY_EVAL
    do_thread_loop(__method__, code, {:loop_count => 5}.merge(opts)) do |result, cache, options, keys|
      all_match      = true
      expected_value = options[:loop_count] * options[:thread_count]
      keys.each do |key|
        if expected_value != (value = cache[key])
          all_match = false
          break
        end
      end
      assert all_match
    end
  end

  def add_remove_to_zero(opts = {})
    code = <<-RUBY_EVAL
      acc += 1 unless cache.put_if_absent(key, key)
      acc -= 1 if cache.delete_pair(key, key)
    RUBY_EVAL
    do_thread_loop(__method__, code, {:loop_count => 5}.merge(opts)) do |result, cache, options, keys|
      assert_all_key_mappings_exist(cache, keys, false)
      assert_equal(cache.size, sum(result))
    end
  end

  def add_remove_to_zero_via_merge_pair(opts = {})
    code = <<-RUBY_EVAL
      acc += (cache.merge_pair(key, key) {}) ? 1 : -1
    RUBY_EVAL
    do_thread_loop(__method__, code, {:loop_count => 5}.merge(opts)) do |result, cache, options, keys|
      assert_all_key_mappings_exist(cache, keys, false)
      assert_equal(cache.size, sum(result))
    end
  end

  def do_thread_loop(name, code, options = {}, &block)
    options = DEFAULTS.merge(options)
    meth    = define_loop name, code, options[:prelude]
    keys = to_keys_array(options[:key_count])
    run_thread_loop(meth, keys, options, &block)

    if options[:key_count] > 1
      options[:key_count] = (options[:key_count] / 40).to_i
      keys = to_hash_collision_keys_array(options[:key_count])
      run_thread_loop(meth, keys, options.merge(:loop_count => (options[:loop_count] * 5)), &block)
    end
  end

  def run_thread_loop(meth, keys, options)
    cache   = options[:cache_setup].call(options, keys)
    barrier = ThreadSafe::Test::Barrier.new(options[:thread_count])
    result = (1..options[:thread_count]).map do
      Thread.new do
        setup_sync_and_start_loop(meth, cache, keys, barrier, options[:loop_count])
      end
    end.map(&:value)
    yield result, cache, options, keys if block_given?
  end

  def setup_sync_and_start_loop(meth, cache, keys, barrier, loop_count)
    my_keys = keys.shuffle
    barrier.await
    if my_keys.size == 1
      key = my_keys.first
      send("#{meth}_single_key", cache, key, loop_count)
    else
      send("#{meth}_multiple_keys", cache, my_keys, loop_count)
    end
  end

  def define_loop(name, body, prelude)
    inner_meth_name = :"_#{name}_loop_inner"
    outer_meth_name = :"_#{name}_loop_outer"
    # looping is splitted into the "loop methods" to trigger the JIT
    self.class.class_eval <<-RUBY_EVAL, __FILE__, __LINE__ + 1
      def #{inner_meth_name}_multiple_keys(cache, keys, i, length, acc)
        #{prelude}
        target = i + length
        while i < target
          key = keys[i]
          #{body}
          i += 1
        end
        acc
      end unless method_defined?(:#{inner_meth_name}_multiple_keys)
    RUBY_EVAL

    self.class.class_eval <<-RUBY_EVAL, __FILE__, __LINE__ + 1
      def #{inner_meth_name}_single_key(cache, key, i, length, acc)
        #{prelude}
        target = i + length
        while i < target
          #{body}
          i += 1
        end
        acc
      end unless method_defined?(:#{inner_meth_name}_single_key)
    RUBY_EVAL

    self.class.class_eval <<-RUBY_EVAL, __FILE__, __LINE__ + 1
      def #{outer_meth_name}_multiple_keys(cache, keys, loop_count)
        total_length = keys.size
        acc = 0
        inc = 100
        loop_count.times do
          i = 0
          pre_loop_inc = total_length % inc
          acc = #{inner_meth_name}_multiple_keys(cache, keys, i, pre_loop_inc, acc)
          i += pre_loop_inc
          while i < total_length
            acc = #{inner_meth_name}_multiple_keys(cache, keys, i, inc, acc)
            i += inc
          end
        end
        acc
      end unless method_defined?(:#{outer_meth_name}_multiple_keys)
    RUBY_EVAL

    self.class.class_eval <<-RUBY_EVAL, __FILE__, __LINE__ + 1
      def #{outer_meth_name}_single_key(cache, key, loop_count)
        acc = 0
        i   = 0
        inc = 100

        pre_loop_inc = loop_count % inc
        acc          = #{inner_meth_name}_single_key(cache, key, i, pre_loop_inc, acc)
        i += pre_loop_inc

        while i < loop_count
          acc = #{inner_meth_name}_single_key(cache, key, i, inc, acc)
          i += inc
        end
        acc
      end unless method_defined?(:#{outer_meth_name}_single_key)
    RUBY_EVAL
    outer_meth_name
  end

  def to_keys_array(key_count)
    arr = []
    key_count.times {|i| arr << i}
    arr
  end

  def to_hash_collision_keys_array(key_count)
    to_keys_array(key_count).map {|key| ThreadSafe::Test::HashCollisionKey(key)}
  end

  def sum(result)
    result.inject(0) {|acc, i| acc + i}
  end

  def assert_standard_accumulator_test_result(result, cache, options, keys)
    assert_all_key_mappings_exist(cache, keys)
    assert_equal(options[:key_count], sum(result))
    assert_equal(options[:key_count], cache.size)
  end

  def assert_all_key_mappings_exist(cache, keys, all_must_exist = true)
    keys.each do |key|
      if (value = cache[key]) || all_must_exist
        assert_equal key, value unless key == value # don't do a bazzilion assertions unless necessary
      end
    end
  end

  def assert_count_up(result, cache, options, keys)
    keys.each do |key|
      unless value = cache[key]
        assert value
      end
    end
    assert_equal(sum(cache.values), sum(result))
    assert_equal(options[:key_count], cache.size)
  end
end unless RUBY_VERSION =~ /1\.8/ || ENV['TRAVIS']