Class: MiniTest::Unit::TestCase
- Includes:
- Assertions
- 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
Constant Summary collapse
- PASSTHROUGH_EXCEPTIONS =
[NoMemoryError, SignalException, Interrupt, SystemExit]
- SUPPORTS_INFO_SIGNAL =
:nodoc:
Constants included from Assertions
Instance Attribute Summary collapse
-
#__name__ ⇒ Object
readonly
:nodoc:.
Class Method Summary collapse
-
.bench_exp(min, max, base = 10) ⇒ Object
Returns a set of ranges stepped exponentially from
min
tomax
by powers ofbase
. -
.bench_linear(min, max, step = 10) ⇒ Object
Returns a set of ranges stepped linearly from
min
tomax
bystep
. -
.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.
-
.inherited(klass) ⇒ Object
:nodoc:.
-
.reset ⇒ Object
:nodoc:.
-
.test_methods ⇒ Object
:nodoc:.
-
.test_order ⇒ Object
Defines test order and is subclassable.
-
.test_suites ⇒ Object
:nodoc:.
Instance Method Summary collapse
-
#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 giventhreshold
. -
#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 errorthreshold
. -
#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 errorthreshold
. -
#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 errorthreshold
. -
#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
- #io? ⇒ Boolean
-
#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
mappingblock
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 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_raises, #assert_respond_to, #assert_same, #assert_send, #assert_silent, #assert_throws, #capture_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_respond_to, #refute_same, #skip
Constructor Details
#initialize(name) ⇒ TestCase
:nodoc:
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# File 'lib/minitest/unit.rb', line 962 def initialize name # :nodoc: @__name__ = name @__io__ = nil @passed = nil end |
Instance Attribute Details
#__name__ ⇒ Object (readonly)
:nodoc:
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# File 'lib/minitest/unit.rb', line 920 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]
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# File 'lib/minitest/benchmark.rb', line 22 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]
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# File 'lib/minitest/benchmark.rb', line 35 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.
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# File 'lib/minitest/benchmark.rb', line 63 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.
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# File 'lib/minitest/benchmark.rb', line 45 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.
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# File 'lib/minitest/benchmark.rb', line 52 def self.benchmark_suites TestCase.test_suites.reject { |s| s.benchmark_methods.empty? } end |
.inherited(klass) ⇒ Object
:nodoc:
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# File 'lib/minitest/unit.rb', line 983 def self.inherited klass # :nodoc: @@test_suites[klass] = true end |
.reset ⇒ Object
:nodoc:
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# File 'lib/minitest/unit.rb', line 977 def self.reset # :nodoc: @@test_suites = {} end |
.test_methods ⇒ Object
:nodoc:
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# File 'lib/minitest/unit.rb', line 1000 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
Defines test order and is subclassable. Defaults to :random but can be overridden to return :alpha if your tests are order dependent (read: weak).
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# File 'lib/minitest/unit.rb', line 992 def self.test_order :random end |
.test_suites ⇒ Object
:nodoc:
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# File 'lib/minitest/unit.rb', line 996 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 |x|
@obj.algorithm
end
end
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# File 'lib/minitest/benchmark.rb', line 85 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 |x|
@obj.algorithm
end
end
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# File 'lib/minitest/benchmark.rb', line 129 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 |x|
@obj.algorithm
end
end
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# File 'lib/minitest/benchmark.rb', line 155 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 |x|
@obj.algorithm
end
end
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# File 'lib/minitest/benchmark.rb', line 175 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
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# File 'lib/minitest/benchmark.rb', line 195 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.
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# File 'lib/minitest/benchmark.rb', line 204 def fit_error xys = sigma(xys) { |x, y| y } / xys.size.to_f ss_tot = sigma(xys) { |x, y| (y - ) ** 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
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# File 'lib/minitest/benchmark.rb', line 219 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].
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# File 'lib/minitest/benchmark.rb', line 241 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].
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# File 'lib/minitest/benchmark.rb', line 263 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
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# File 'lib/minitest/unit.rb', line 968 def io @__io__ = true MiniTest::Unit.output end |
#io? ⇒ Boolean
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# File 'lib/minitest/unit.rb', line 973 def io? @__io__ end |
#passed? ⇒ Boolean
Returns true if the test passed.
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# File 'lib/minitest/unit.rb', line 1017 def passed? @passed end |
#run(runner) ⇒ Object
Runs the tests reporting the status to runner
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# File 'lib/minitest/unit.rb', line 930 def run runner trap "INFO" do time = runner.start_time ? Time.now - runner.start_time : 0 warn "%s#%s %.2fs" % [self.class, self.__name__, time] runner.status $stderr end if SUPPORTS_INFO_SIGNAL result = "" begin @passed = nil self.setup self.__send__ 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 begin self.teardown rescue *PASSTHROUGH_EXCEPTIONS raise rescue Exception => e result = runner.puke self.class, self.__name__, e end trap 'INFO', 'DEFAULT' if SUPPORTS_INFO_SIGNAL end result end |
#setup ⇒ Object
Runs before every test. Use this to refactor test initialization.
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# File 'lib/minitest/unit.rb', line 1024 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
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# File 'lib/minitest/benchmark.rb', line 284 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 refactor test cleanup.
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# File 'lib/minitest/unit.rb', line 1029 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.
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# File 'lib/minitest/benchmark.rb', line 293 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 |