Class: MiniTest::Unit::TestCase

Inherits:

Object

• Object
• MiniTest::Unit::TestCase

Extended by:

Deprecated::HooksCM, Guard

Includes:

Assertions, Deprecated::Hooks, Guard, LifecycleHooks

Defined in:

lib/minitest/unit.rb,
lib/minitest/benchmark.rb

Overview

Subclass TestCase to create your own tests. Typically you’ll want a TestCase subclass per implementation class.

See MiniTest::Assertions

Direct Known Subclasses

Spec

Constant Summary

PASSTHROUGH_EXCEPTIONS =

[NoMemoryError, SignalException,
Interrupt, SystemExit]

SUPPORTS_INFO_SIGNAL =

:nodoc:

Constants included from Assertions

Assertions::UNDEFINED

Instance Attribute Summary

• #__name__ ⇒ Object readonly

  :nodoc:.

Class Method Summary

• .bench_exp(min, max, base = 10) ⇒ Object

  Returns a set of ranges stepped exponentially from min to max by powers of base.

• .bench_linear(min, max, step = 10) ⇒ Object

  Returns a set of ranges stepped linearly from min to max by step.

• .bench_range ⇒ Object

  Specifies the ranges used for benchmarking for that class.

• .benchmark_methods ⇒ Object

  Returns the benchmark methods (methods that start with bench_) for that class.

• .benchmark_suites ⇒ Object

  Returns all test suites that have benchmark methods.

• .current ⇒ Object

  :nodoc:.

• .i_suck_and_my_tests_are_order_dependent! ⇒ Object

  Call this at the top of your tests when you absolutely positively need to have ordered tests.

• .inherited(klass) ⇒ Object

  :nodoc:.

• .reset ⇒ Object

  :nodoc:.

• .reset_setup_teardown_hooks ⇒ Object

  :nodoc:.

• .test_methods ⇒ Object

  :nodoc:.

• .test_order ⇒ Object

  :nodoc:.

• .test_suites ⇒ Object

  :nodoc:.

Instance Method Summary

• #assert_performance(validation, &work) ⇒ Object

  Runs the given work, gathering the times of each run.

• #assert_performance_constant(threshold = 0.99, &work) ⇒ Object

  Runs the given work and asserts that the times gathered fit to match a constant rate (eg, linear slope == 0) within a given threshold.

• #assert_performance_exponential(threshold = 0.99, &work) ⇒ Object

  Runs the given work and asserts that the times gathered fit to match a exponential curve within a given error threshold.

• #assert_performance_linear(threshold = 0.99, &work) ⇒ Object

  Runs the given work and asserts that the times gathered fit to match a straight line within a given error threshold.

• #assert_performance_power(threshold = 0.99, &work) ⇒ Object

  Runs the given work and asserts that the times gathered curve fit to match a power curve within a given error threshold.

• #fit_error(xys) ⇒ Object

  Takes an array of x/y pairs and calculates the general R^2 value.

• #fit_exponential(xs, ys) ⇒ Object

  To fit a functional form: y = ae^(bx).

• #fit_linear(xs, ys) ⇒ Object

  Fits the functional form: a + bx.

• #fit_power(xs, ys) ⇒ Object

  To fit a functional form: y = ax^b.

• #initialize(name) ⇒ TestCase constructor

  :nodoc:.

• #io ⇒ Object

  Return the output IO object.

• #io? ⇒ Boolean

  Have we hooked up the IO yet?.

• #passed? ⇒ Boolean

  Returns true if the test passed.

• #run(runner) ⇒ Object

  Runs the tests reporting the status to runner.

• #setup ⇒ Object

  Runs before every test.

• #sigma(enum, &block) ⇒ Object

  Enumerates over enum mapping block if given, returning the sum of the result.

• #teardown ⇒ Object

  Runs after every test.

• #validation_for_fit(msg, threshold) ⇒ Object

  Returns a proc that calls the specified fit method and asserts that the error is within a tolerable threshold.

Methods included from Deprecated::HooksCM

add_setup_hook, add_teardown_hook, setup_hooks, teardown_hooks

Methods included from Guard

jruby?, mri?, rubinius?, windows?

Methods included from Assertions

#_assertions, #_assertions=, #assert, #assert_block, #assert_empty, #assert_equal, #assert_in_delta, #assert_in_epsilon, #assert_includes, #assert_instance_of, #assert_kind_of, #assert_match, #assert_nil, #assert_operator, #assert_output, #assert_predicate, #assert_raises, #assert_respond_to, #assert_same, #assert_send, #assert_silent, #assert_throws, #capture_io, #capture_subprocess_io, #diff, diff, diff=, #exception_details, #flunk, #message, #mu_pp, #mu_pp_for_diff, #pass, #refute, #refute_empty, #refute_equal, #refute_in_delta, #refute_in_epsilon, #refute_includes, #refute_instance_of, #refute_kind_of, #refute_match, #refute_nil, #refute_operator, #refute_predicate, #refute_respond_to, #refute_same, #skip

Methods included from Deprecated::Hooks

#_run_hooks, #run_setup_hooks, #run_teardown_hooks

Methods included from LifecycleHooks

#after_setup, #after_teardown, #before_setup, #before_teardown

Constructor Details

#initialize(name) ⇒ TestCase

:nodoc:

# File 'lib/minitest/unit.rb', line 1290

def initialize name # :nodoc:
  @__name__ = name
  @__io__ = nil
  @passed = nil
  @@current = self
end

Instance Attribute Details

#__name__ ⇒ Object (readonly)

:nodoc:

# File 'lib/minitest/unit.rb', line 1237

def __name__
  @__name__
end

Class Method Details

.bench_exp(min, max, base = 10) ⇒ Object

Returns a set of ranges stepped exponentially from min to max by powers of base. Eg:

bench_exp(2, 16, 2) # => [2, 4, 8, 16]

# File 'lib/minitest/benchmark.rb', line 20

def self.bench_exp min, max, base = 10
  min = (Math.log10(min) / Math.log10(base)).to_i
  max = (Math.log10(max) / Math.log10(base)).to_i

  (min..max).map { |m| base ** m }.to_a
end

.bench_linear(min, max, step = 10) ⇒ Object

Returns a set of ranges stepped linearly from min to max by step. Eg:

bench_linear(20, 40, 10) # => [20, 30, 40]

# File 'lib/minitest/benchmark.rb', line 33

def self.bench_linear min, max, step = 10
  (min..max).step(step).to_a
rescue LocalJumpError # 1.8.6
  r = []; (min..max).step(step) { |n| r << n }; r
end

.bench_range ⇒ Object

Specifies the ranges used for benchmarking for that class. Defaults to exponential growth from 1 to 10k by powers of 10. Override if you need different ranges for your benchmarks.

See also: ::bench_exp and ::bench_linear.

# File 'lib/minitest/benchmark.rb', line 61

def self.bench_range
  bench_exp 1, 10_000
end

.benchmark_methods ⇒ Object

Returns the benchmark methods (methods that start with bench_) for that class.

# File 'lib/minitest/benchmark.rb', line 43

def self.benchmark_methods # :nodoc:
  public_instance_methods(true).grep(/^bench_/).map { |m| m.to_s }.sort
end

.benchmark_suites ⇒ Object

Returns all test suites that have benchmark methods.

# File 'lib/minitest/benchmark.rb', line 50

def self.benchmark_suites
  TestCase.test_suites.reject { |s| s.benchmark_methods.empty? }
end

.current ⇒ Object

:nodoc:

# File 'lib/minitest/unit.rb', line 1297

def self.current # :nodoc:
  @@current
end

.i_suck_and_my_tests_are_order_dependent! ⇒ Object

Call this at the top of your tests when you absolutely positively need to have ordered tests. In doing so, you’re admitting that you suck and your tests are weak.

# File 'lib/minitest/unit.rb', line 1327

def self.i_suck_and_my_tests_are_order_dependent!
  class << self
    undef_method :test_order if method_defined? :test_order
    define_method :test_order do :alpha end
  end
end

.inherited(klass) ⇒ Object

:nodoc:

# File 'lib/minitest/unit.rb', line 1334

def self.inherited klass # :nodoc:
  @@test_suites[klass] = true
  klass.reset_setup_teardown_hooks
  super
end

.reset ⇒ Object

:nodoc:

# File 'lib/minitest/unit.rb', line 1316

def self.reset # :nodoc:
  @@test_suites = {}
end

.reset_setup_teardown_hooks ⇒ Object

:nodoc:

# File 'lib/minitest/unit.rb', line 1381

def self.reset_setup_teardown_hooks # :nodoc:
  # also deprecated... believe it.
  @setup_hooks = []
  @teardown_hooks = []
end

.test_methods ⇒ Object

:nodoc:

# File 'lib/minitest/unit.rb', line 1348

def self.test_methods # :nodoc:
  methods = public_instance_methods(true).grep(/^test/).map { |m| m.to_s }

  case self.test_order
  when :random then
    max = methods.size
    methods.sort.sort_by { rand max }
  when :alpha, :sorted then
    methods.sort
  else
    raise "Unknown test_order: #{self.test_order.inspect}"
  end
end

.test_order ⇒ Object

:nodoc:

# File 'lib/minitest/unit.rb', line 1340

def self.test_order # :nodoc:
  :random
end

.test_suites ⇒ Object

:nodoc:

# File 'lib/minitest/unit.rb', line 1344

def self.test_suites # :nodoc:
  @@test_suites.keys.sort_by { |ts| ts.name.to_s }
end

Instance Method Details

#assert_performance(validation, &work) ⇒ Object

Runs the given work, gathering the times of each run. Range and times are then passed to a given validation proc. Outputs the benchmark name and times in tab-separated format, making it easy to paste into a spreadsheet for graphing or further analysis.

Ranges are specified by ::bench_range.

Eg:

def bench_algorithm
  validation = proc { |x, y| ... }
  assert_performance validation do |n|
    @obj.algorithm(n)
  end
end

# File 'lib/minitest/benchmark.rb', line 83

def assert_performance validation, &work
  range = self.class.bench_range

  io.print "#{__name__}"

  times = []

  range.each do |x|
    GC.start
    t0 = Time.now
    instance_exec(x, &work)
    t = Time.now - t0

    io.print "\t%9.6f" % t
    times << t
  end
  io.puts

  validation[range, times]
end

#assert_performance_constant(threshold = 0.99, &work) ⇒ Object

Runs the given work and asserts that the times gathered fit to match a constant rate (eg, linear slope == 0) within a given threshold. Note: because we’re testing for a slope of 0, R^2 is not a good determining factor for the fit, so the threshold is applied against the slope itself. As such, you probably want to tighten it from the default.

See www.graphpad.com/curvefit/goodness_of_fit.htm for more details.

Fit is calculated by #fit_linear.

Ranges are specified by ::bench_range.

Eg:

def bench_algorithm
  assert_performance_constant 0.9999 do |n|
    @obj.algorithm(n)
  end
end

# File 'lib/minitest/benchmark.rb', line 127

def assert_performance_constant threshold = 0.99, &work
  validation = proc do |range, times|
    a, b, rr = fit_linear range, times
    assert_in_delta 0, b, 1 - threshold
    [a, b, rr]
  end

  assert_performance validation, &work
end

#assert_performance_exponential(threshold = 0.99, &work) ⇒ Object

Runs the given work and asserts that the times gathered fit to match a exponential curve within a given error threshold.

Fit is calculated by #fit_exponential.

Ranges are specified by ::bench_range.

Eg:

def bench_algorithm
  assert_performance_exponential 0.9999 do |n|
    @obj.algorithm(n)
  end
end

# File 'lib/minitest/benchmark.rb', line 153

def assert_performance_exponential threshold = 0.99, &work
  assert_performance validation_for_fit(:exponential, threshold), &work
end

#assert_performance_linear(threshold = 0.99, &work) ⇒ Object

Runs the given work and asserts that the times gathered fit to match a straight line within a given error threshold.

Fit is calculated by #fit_linear.

Ranges are specified by ::bench_range.

Eg:

def bench_algorithm
  assert_performance_linear 0.9999 do |n|
    @obj.algorithm(n)
  end
end

# File 'lib/minitest/benchmark.rb', line 173

def assert_performance_linear threshold = 0.99, &work
  assert_performance validation_for_fit(:linear, threshold), &work
end

#assert_performance_power(threshold = 0.99, &work) ⇒ Object

Runs the given work and asserts that the times gathered curve fit to match a power curve within a given error threshold.

Fit is calculated by #fit_power.

Ranges are specified by ::bench_range.

Eg:

def bench_algorithm
  assert_performance_power 0.9999 do |x|
    @obj.algorithm
  end
end

# File 'lib/minitest/benchmark.rb', line 193

def assert_performance_power threshold = 0.99, &work
  assert_performance validation_for_fit(:power, threshold), &work
end

#fit_error(xys) ⇒ Object

Takes an array of x/y pairs and calculates the general R^2 value.

See: en.wikipedia.org/wiki/Coefficient_of_determination

# File 'lib/minitest/benchmark.rb', line 202

def fit_error xys
  y_bar  = sigma(xys) { |x, y| y } / xys.size.to_f
  ss_tot = sigma(xys) { |x, y| (y    - y_bar) ** 2 }
  ss_err = sigma(xys) { |x, y| (yield(x) - y) ** 2 }

  1 - (ss_err / ss_tot)
end

#fit_exponential(xs, ys) ⇒ Object

To fit a functional form: y = ae^(bx).

Takes x and y values and returns [a, b, r^2].

See: mathworld.wolfram.com/LeastSquaresFittingExponential.html

# File 'lib/minitest/benchmark.rb', line 217

def fit_exponential xs, ys
  n     = xs.size
  xys   = xs.zip(ys)
  sxlny = sigma(xys) { |x,y| x * Math.log(y) }
  slny  = sigma(xys) { |x,y| Math.log(y)     }
  sx2   = sigma(xys) { |x,y| x * x           }
  sx    = sigma xs

  c = n * sx2 - sx ** 2
  a = (slny * sx2 - sx * sxlny) / c
  b = ( n * sxlny - sx * slny ) / c

  return Math.exp(a), b, fit_error(xys) { |x| Math.exp(a + b * x) }
end

#fit_linear(xs, ys) ⇒ Object

Fits the functional form: a + bx.

Takes x and y values and returns [a, b, r^2].

See: mathworld.wolfram.com/LeastSquaresFitting.html

# File 'lib/minitest/benchmark.rb', line 239

def fit_linear xs, ys
  n   = xs.size
  xys = xs.zip(ys)
  sx  = sigma xs
  sy  = sigma ys
  sx2 = sigma(xs)  { |x|   x ** 2 }
  sxy = sigma(xys) { |x,y| x * y  }

  c = n * sx2 - sx**2
  a = (sy * sx2 - sx * sxy) / c
  b = ( n * sxy - sx * sy ) / c

  return a, b, fit_error(xys) { |x| a + b * x }
end

#fit_power(xs, ys) ⇒ Object

To fit a functional form: y = ax^b.

Takes x and y values and returns [a, b, r^2].

See: mathworld.wolfram.com/LeastSquaresFittingPowerLaw.html

# File 'lib/minitest/benchmark.rb', line 261

def fit_power xs, ys
  n       = xs.size
  xys     = xs.zip(ys)
  slnxlny = sigma(xys) { |x, y| Math.log(x) * Math.log(y) }
  slnx    = sigma(xs)  { |x   | Math.log(x)               }
  slny    = sigma(ys)  { |   y| Math.log(y)               }
  slnx2   = sigma(xs)  { |x   | Math.log(x) ** 2          }

  b = (n * slnxlny - slnx * slny) / (n * slnx2 - slnx ** 2);
  a = (slny - b * slnx) / n

  return Math.exp(a), b, fit_error(xys) { |x| (Math.exp(a) * (x ** b)) }
end

#io ⇒ Object

Return the output IO object

# File 'lib/minitest/unit.rb', line 1304

def io
  @__io__ = true
  MiniTest::Unit.output
end

#io? ⇒ Boolean

Have we hooked up the IO yet?

Returns:

• (Boolean)

# File 'lib/minitest/unit.rb', line 1312

def io?
  @__io__
end

#passed? ⇒ Boolean

Returns true if the test passed.

Returns:

• (Boolean)

# File 'lib/minitest/unit.rb', line 1365

def passed?
  @passed
end

#run(runner) ⇒ Object

Runs the tests reporting the status to runner

# File 'lib/minitest/unit.rb', line 1247

def run runner
  trap "INFO" do
    runner.report.each_with_index do |msg, i|
      warn "\n%3d) %s" % [i + 1, msg]
    end
    warn ''
    time = runner.start_time ? Time.now - runner.start_time : 0
    warn "Current Test: %s#%s %.2fs" % [self.class, self.__name__, time]
    runner.status $stderr
  end if SUPPORTS_INFO_SIGNAL

  result = ""
  begin
    @passed = nil
    self.before_setup
    self.setup
    self.after_setup
    self.run_test self.__name__
    result = "." unless io?
    @passed = true
  rescue *PASSTHROUGH_EXCEPTIONS
    raise
  rescue Exception => e
    @passed = false
    result = runner.puke self.class, self.__name__, e
  ensure
    %w{ before_teardown teardown after_teardown }.each do |hook|
      begin
        self.send hook
      rescue *PASSTHROUGH_EXCEPTIONS
        raise
      rescue Exception => e
        @passed = false
        result = runner.puke self.class, self.__name__, e
      end
    end
    trap 'INFO', 'DEFAULT' if SUPPORTS_INFO_SIGNAL
  end
  result
end

#setup ⇒ Object

Runs before every test. Use this to set up before each test run.

# File 'lib/minitest/unit.rb', line 1373

def setup; end

#sigma(enum, &block) ⇒ Object

Enumerates over enum mapping block if given, returning the sum of the result. Eg:

sigma([1, 2, 3])                # => 1 + 2 + 3 => 7
sigma([1, 2, 3]) { |n| n ** 2 } # => 1 + 4 + 9 => 14

# File 'lib/minitest/benchmark.rb', line 282

def sigma enum, &block
  enum = enum.map(&block) if block
  enum.inject { |sum, n| sum + n }
end

#teardown ⇒ Object

Runs after every test. Use this to clean up after each test run.

# File 'lib/minitest/unit.rb', line 1379

def teardown; end

#validation_for_fit(msg, threshold) ⇒ Object

Returns a proc that calls the specified fit method and asserts that the error is within a tolerable threshold.

# File 'lib/minitest/benchmark.rb', line 291

def validation_for_fit msg, threshold
  proc do |range, times|
    a, b, rr = send "fit_#{msg}", range, times
    assert_operator rr, :>=, threshold
    [a, b, rr]
  end
end