ginkgoConfig.ParallelTotal = 1
reporter.SpecSuiteWillBegin(ginkgoConfig, suite)
})
It("should announce the suite, then announce the number of specs", func() {
Ω(stenographer.Calls()).Should(HaveLen(2))
Ω(stenographer.Calls()[0]).Should(Equal(call("AnnounceSuite", "A Sweet Suite", ginkgoConfig.RandomSeed, true, false)))
Ω(stenographer.Calls()[1]).Should(Equal(call("AnnounceNumberOfSpecs", 8, 10, false)))
})
})
Context("when a parallel suite begins", func() {
BeforeEach(func() {
ginkgoConfig.ParallelTotal = 2
ginkgoConfig.ParallelNode = 1
suite.NumberOfSpecsBeforeParallelization = 20
reporter.SpecSuiteWillBegin(ginkgoConfig, suite)
})
It("should announce the suite, announce that it's a parallel run, then announce the number of specs", func() {
Ω(stenographer.Calls()).Should(HaveLen(3))
Ω(stenographer.Calls()[0]).Should(Equal(call("AnnounceSuite", "A Sweet Suite", ginkgoConfig.RandomSeed, true, false)))
Ω(stenographer.Calls()[1]).Should(Equal(call("AnnounceParallelRun", 1, 2, 10, 20, false)))
Ω(stenographer.Calls()[2]).Should(Equal(call("AnnounceNumberOfSpecs", 8, 10, false)))
})
})
})
Describe("BeforeSuiteDidRun", func() {
func init() {
Describe("Example Collection", func() {
var (
fakeT *fakeTestingT
fakeR *fakeReporter
examplesThatWereRun []string
collection *exampleCollection
)
exampleWithItFunc := func(itText string, flag flagType, fail bool) *example {
return newExample(newItNode(itText, func() {
examplesThatWereRun = append(examplesThatWereRun, itText)
time.Sleep(time.Duration(0.001 * float64(time.Second)))
if fail {
collection.fail(failureData{
message: itText + " Failed",
})
}
}, flag, types.GenerateCodeLocation(0), 0))
}
BeforeEach(func() {
fakeT = &fakeTestingT{}
fakeR = &fakeReporter{}
examplesThatWereRun = make([]string, 0)
})
Describe("shuffling the collection", func() {
BeforeEach(func() {
collection = newExampleCollection(fakeT, "collection description", []*example{
exampleWithItFunc("C", flagTypeNone, false),
exampleWithItFunc("A", flagTypeNone, false),
exampleWithItFunc("B", flagTypeNone, false),
}, []Reporter{fakeR}, config.GinkgoConfigType{})
})
It("should be sortable", func() {
sort.Sort(collection)
collection.run()
Ω(examplesThatWereRun).Should(Equal([]string{"A", "B", "C"}))
})
It("shuffles all the examples after sorting them", func() {
collection.shuffle(rand.New(rand.NewSource(17)))
collection.run()
Ω(examplesThatWereRun).Should(Equal(shuffleStrings([]string{"A", "B", "C"}, 17)), "The permutation should be the same across test runs")
})
})
Describe("reporting to multiple reporter", func() {
var otherFakeR *fakeReporter
BeforeEach(func() {
otherFakeR = &fakeReporter{}
collection = newExampleCollection(fakeT, "collection description", []*example{
exampleWithItFunc("C", flagTypeNone, false),
exampleWithItFunc("A", flagTypeNone, false),
exampleWithItFunc("B", flagTypeNone, false),
}, []Reporter{fakeR, otherFakeR}, config.GinkgoConfigType{})
collection.run()
})
It("reports to both reporters", func() {
Ω(otherFakeR.beginSummary).Should(Equal(fakeR.beginSummary))
Ω(otherFakeR.endSummary).Should(Equal(fakeR.endSummary))
Ω(otherFakeR.exampleSummaries).Should(Equal(fakeR.exampleSummaries))
})
})
Describe("running an example collection", func() {
var (
example1 *example
example2 *example
example3 *example
conf config.GinkgoConfigType
)
BeforeEach(func() {
conf = config.GinkgoConfigType{FocusString: "", ParallelTotal: 1, ParallelNode: 1}
example1 = exampleWithItFunc("it 1", flagTypeNone, false)
example2 = exampleWithItFunc("it 2", flagTypeNone, false)
example3 = exampleWithItFunc("it 3", flagTypeNone, false)
})
JustBeforeEach(func() {
collection = newExampleCollection(fakeT, "collection description", []*example{example1, example2, example3}, []Reporter{fakeR}, conf)
collection.run()
})
Context("when all the examples pass", func() {
It("runs all the tests", func() {
Ω(examplesThatWereRun).Should(Equal([]string{"it 1", "it 2", "it 3"}))
})
It("marks the suite as passed", func() {
Ω(fakeT.didFail).Should(BeFalse())
})
It("publishes the correct starting suite summary", func() {
summary := fakeR.beginSummary
Ω(summary.SuiteDescription).Should(Equal("collection description"))
Ω(summary.SuiteSucceeded).Should(BeTrue())
Ω(summary.NumberOfExamplesBeforeParallelization).Should(Equal(3))
Ω(summary.NumberOfTotalExamples).Should(Equal(3))
Ω(summary.NumberOfExamplesThatWillBeRun).Should(Equal(3))
Ω(summary.NumberOfPendingExamples).Should(Equal(0))
Ω(summary.NumberOfSkippedExamples).Should(Equal(0))
Ω(summary.NumberOfPassedExamples).Should(Equal(0))
Ω(summary.NumberOfFailedExamples).Should(Equal(0))
Ω(summary.RunTime).Should(Equal(time.Duration(0)))
})
It("publishes the correct example summaries", func() {
Ω(fakeR.exampleWillRunSummaries).Should(HaveLen(3))
Ω(fakeR.exampleSummaries).Should(HaveLen(3))
Ω(fakeR.exampleSummaries[0]).Should(Equal(example1.summary()))
Ω(fakeR.exampleSummaries[1]).Should(Equal(example2.summary()))
Ω(fakeR.exampleSummaries[2]).Should(Equal(example3.summary()))
})
It("publishes the correct ending suite summary", func() {
summary := fakeR.endSummary
Ω(summary.SuiteDescription).Should(Equal("collection description"))
Ω(summary.SuiteSucceeded).Should(BeTrue())
Ω(summary.NumberOfExamplesBeforeParallelization).Should(Equal(3))
Ω(summary.NumberOfTotalExamples).Should(Equal(3))
Ω(summary.NumberOfExamplesThatWillBeRun).Should(Equal(3))
Ω(summary.NumberOfPendingExamples).Should(Equal(0))
Ω(summary.NumberOfSkippedExamples).Should(Equal(0))
Ω(summary.NumberOfPassedExamples).Should(Equal(3))
Ω(summary.NumberOfFailedExamples).Should(Equal(0))
Ω(summary.RunTime.Seconds()).Should(BeNumerically("~", 3*0.001, 0.01))
})
})
Context("when examples fail", func() {
BeforeEach(func() {
example2 = exampleWithItFunc("failing it 2", flagTypeNone, true)
example3 = exampleWithItFunc("failing it 3", flagTypeNone, true)
})
It("runs all the tests", func() {
Ω(examplesThatWereRun).Should(Equal([]string{"it 1", "failing it 2", "failing it 3"}))
})
It("marks the suite as failed", func() {
Ω(fakeT.didFail).Should(BeTrue())
})
It("publishes the correct starting suite summary", func() {
summary := fakeR.beginSummary
Ω(summary.SuiteDescription).Should(Equal("collection description"))
Ω(summary.SuiteSucceeded).Should(BeTrue())
Ω(summary.NumberOfExamplesBeforeParallelization).Should(Equal(3))
Ω(summary.NumberOfTotalExamples).Should(Equal(3))
Ω(summary.NumberOfExamplesThatWillBeRun).Should(Equal(3))
Ω(summary.NumberOfPendingExamples).Should(Equal(0))
Ω(summary.NumberOfSkippedExamples).Should(Equal(0))
Ω(summary.NumberOfPassedExamples).Should(Equal(0))
Ω(summary.NumberOfFailedExamples).Should(Equal(0))
Ω(summary.RunTime).Should(Equal(time.Duration(0)))
})
It("publishes the correct example summaries", func() {
Ω(fakeR.exampleSummaries).Should(HaveLen(3))
Ω(fakeR.exampleSummaries[0]).Should(Equal(example1.summary()))
Ω(fakeR.exampleSummaries[1]).Should(Equal(example2.summary()))
Ω(fakeR.exampleSummaries[2]).Should(Equal(example3.summary()))
})
It("publishes the correct ending suite summary", func() {
summary := fakeR.endSummary
Ω(summary.SuiteDescription).Should(Equal("collection description"))
Ω(summary.SuiteSucceeded).Should(BeFalse())
Ω(summary.NumberOfExamplesBeforeParallelization).Should(Equal(3))
Ω(summary.NumberOfTotalExamples).Should(Equal(3))
Ω(summary.NumberOfExamplesThatWillBeRun).Should(Equal(3))
Ω(summary.NumberOfPendingExamples).Should(Equal(0))
Ω(summary.NumberOfSkippedExamples).Should(Equal(0))
Ω(summary.NumberOfPassedExamples).Should(Equal(1))
Ω(summary.NumberOfFailedExamples).Should(Equal(2))
Ω(summary.RunTime.Seconds()).Should(BeNumerically("~", 3*0.001, 0.01))
})
})
Context("when examples are pending", func() {
BeforeEach(func() {
example1 = exampleWithItFunc("pending it 1", flagTypePending, false)
})
It("skips the pending examples", func() {
Ω(examplesThatWereRun).Should(Equal([]string{"it 2", "it 3"}))
})
It("marks the suite as passed", func() {
Ω(fakeT.didFail).Should(BeFalse())
})
It("publishes the correct starting suite summary", func() {
summary := fakeR.beginSummary
Ω(summary.SuiteDescription).Should(Equal("collection description"))
Ω(summary.SuiteSucceeded).Should(BeTrue())
Ω(summary.NumberOfExamplesBeforeParallelization).Should(Equal(3))
Ω(summary.NumberOfTotalExamples).Should(Equal(3))
Ω(summary.NumberOfExamplesThatWillBeRun).Should(Equal(2))
Ω(summary.NumberOfPendingExamples).Should(Equal(1))
Ω(summary.NumberOfSkippedExamples).Should(Equal(0))
Ω(summary.NumberOfPassedExamples).Should(Equal(0))
Ω(summary.NumberOfFailedExamples).Should(Equal(0))
Ω(summary.RunTime).Should(Equal(time.Duration(0)))
})
It("publishes the correct example summaries", func() {
Ω(fakeR.exampleSummaries).Should(HaveLen(3))
Ω(fakeR.exampleSummaries[0]).Should(Equal(example1.summary()))
Ω(fakeR.exampleSummaries[1]).Should(Equal(example2.summary()))
Ω(fakeR.exampleSummaries[2]).Should(Equal(example3.summary()))
})
It("publishes the correct ending suite summary", func() {
summary := fakeR.endSummary
Ω(summary.SuiteDescription).Should(Equal("collection description"))
Ω(summary.SuiteSucceeded).Should(BeTrue())
Ω(summary.NumberOfExamplesBeforeParallelization).Should(Equal(3))
Ω(summary.NumberOfTotalExamples).Should(Equal(3))
Ω(summary.NumberOfExamplesThatWillBeRun).Should(Equal(2))
Ω(summary.NumberOfPendingExamples).Should(Equal(1))
Ω(summary.NumberOfSkippedExamples).Should(Equal(0))
Ω(summary.NumberOfPassedExamples).Should(Equal(2))
Ω(summary.NumberOfFailedExamples).Should(Equal(0))
Ω(summary.RunTime.Seconds()).Should(BeNumerically("~", 3*0.001, 0.01))
})
Context("and --failOnPending is set", func() {
BeforeEach(func() {
conf.FailOnPending = true
})
It("should mark the suite as failed", func() {
Ω(fakeT.didFail).Should(BeTrue())
summary := fakeR.endSummary
Ω(summary.SuiteSucceeded).Should(BeFalse())
})
})
})
Context("when examples are focused", func() {
BeforeEach(func() {
example1 = exampleWithItFunc("focused it 1", flagTypeFocused, false)
example3 = exampleWithItFunc("focused it 3", flagTypeFocused, false)
})
It("skips the non-focused examples", func() {
Ω(examplesThatWereRun).Should(Equal([]string{"focused it 1", "focused it 3"}))
})
It("marks the suite as passed", func() {
Ω(fakeT.didFail).Should(BeFalse())
})
It("publishes the correct starting suite summary", func() {
summary := fakeR.beginSummary
Ω(summary.SuiteDescription).Should(Equal("collection description"))
Ω(summary.SuiteSucceeded).Should(BeTrue())
Ω(summary.NumberOfExamplesBeforeParallelization).Should(Equal(3))
Ω(summary.NumberOfTotalExamples).Should(Equal(3))
Ω(summary.NumberOfExamplesThatWillBeRun).Should(Equal(2))
Ω(summary.NumberOfPendingExamples).Should(Equal(0))
Ω(summary.NumberOfSkippedExamples).Should(Equal(1))
Ω(summary.NumberOfPassedExamples).Should(Equal(0))
Ω(summary.NumberOfFailedExamples).Should(Equal(0))
Ω(summary.RunTime).Should(Equal(time.Duration(0)))
})
It("publishes the correct example summaries", func() {
Ω(fakeR.exampleSummaries).Should(HaveLen(3))
Ω(fakeR.exampleSummaries[0]).Should(Equal(example1.summary()))
Ω(fakeR.exampleSummaries[1]).Should(Equal(example2.summary()))
Ω(fakeR.exampleSummaries[2]).Should(Equal(example3.summary()))
})
It("publishes the correct ending suite summary", func() {
summary := fakeR.endSummary
Ω(summary.SuiteDescription).Should(Equal("collection description"))
Ω(summary.SuiteSucceeded).Should(BeTrue())
Ω(summary.NumberOfExamplesBeforeParallelization).Should(Equal(3))
Ω(summary.NumberOfTotalExamples).Should(Equal(3))
Ω(summary.NumberOfExamplesThatWillBeRun).Should(Equal(2))
Ω(summary.NumberOfPendingExamples).Should(Equal(0))
Ω(summary.NumberOfSkippedExamples).Should(Equal(1))
Ω(summary.NumberOfPassedExamples).Should(Equal(2))
Ω(summary.NumberOfFailedExamples).Should(Equal(0))
Ω(summary.RunTime.Seconds()).Should(BeNumerically("~", 3*0.001, 0.01))
})
})
Context("when a regexp focusString is provided", func() {
BeforeEach(func() {
conf.FocusString = `collection description.*pickles\d$`
example1 = exampleWithItFunc("focused it 1", flagTypeFocused, false)
example2 = exampleWithItFunc("another it pickles2", flagTypeNone, false)
example3 = exampleWithItFunc("focused it pickles3", flagTypeFocused, false)
})
It("ignores the programmatic focus and applies the regexp focusString", func() {
Ω(examplesThatWereRun).Should(Equal([]string{"another it pickles2", "focused it pickles3"}))
})
It("publishes the correct starting suite summary", func() {
summary := fakeR.beginSummary
Ω(summary.SuiteDescription).Should(Equal("collection description"))
Ω(summary.SuiteSucceeded).Should(BeTrue())
Ω(summary.NumberOfExamplesBeforeParallelization).Should(Equal(3))
Ω(summary.NumberOfTotalExamples).Should(Equal(3))
Ω(summary.NumberOfExamplesThatWillBeRun).Should(Equal(2))
Ω(summary.NumberOfPendingExamples).Should(Equal(0))
Ω(summary.NumberOfSkippedExamples).Should(Equal(1))
Ω(summary.NumberOfPassedExamples).Should(Equal(0))
Ω(summary.NumberOfFailedExamples).Should(Equal(0))
Ω(summary.RunTime).Should(Equal(time.Duration(0)))
})
It("publishes the correct example summaries", func() {
Ω(fakeR.exampleSummaries).Should(HaveLen(3))
Ω(fakeR.exampleSummaries[0]).Should(Equal(example1.summary()))
Ω(fakeR.exampleSummaries[1]).Should(Equal(example2.summary()))
Ω(fakeR.exampleSummaries[2]).Should(Equal(example3.summary()))
})
It("publishes the correct ending suite summary", func() {
summary := fakeR.endSummary
Ω(summary.SuiteDescription).Should(Equal("collection description"))
Ω(summary.SuiteSucceeded).Should(BeTrue())
Ω(summary.NumberOfExamplesBeforeParallelization).Should(Equal(3))
Ω(summary.NumberOfTotalExamples).Should(Equal(3))
Ω(summary.NumberOfExamplesThatWillBeRun).Should(Equal(2))
Ω(summary.NumberOfPendingExamples).Should(Equal(0))
Ω(summary.NumberOfSkippedExamples).Should(Equal(1))
Ω(summary.NumberOfPassedExamples).Should(Equal(2))
Ω(summary.NumberOfFailedExamples).Should(Equal(0))
Ω(summary.RunTime.Seconds()).Should(BeNumerically("~", 3*0.001, 0.01))
})
})
Context("when a regexp skipString is provided", func() {
BeforeEach(func() {
conf.SkipString = `collection description.*pickles\d$`
example1 = exampleWithItFunc("focused it 1", flagTypeFocused, false)
example2 = exampleWithItFunc("another it pickles2", flagTypeNone, false)
example3 = exampleWithItFunc("focused it pickles3", flagTypeFocused, false)
})
It("ignores the programmatic focus and applies the regexp skipString", func() {
Ω(examplesThatWereRun).Should(Equal([]string{"focused it 1"}))
})
It("publishes the correct starting suite summary", func() {
summary := fakeR.beginSummary
Ω(summary.SuiteDescription).Should(Equal("collection description"))
Ω(summary.SuiteSucceeded).Should(BeTrue())
Ω(summary.NumberOfExamplesBeforeParallelization).Should(Equal(3))
Ω(summary.NumberOfTotalExamples).Should(Equal(3))
Ω(summary.NumberOfExamplesThatWillBeRun).Should(Equal(1))
Ω(summary.NumberOfPendingExamples).Should(Equal(0))
Ω(summary.NumberOfSkippedExamples).Should(Equal(2))
Ω(summary.NumberOfPassedExamples).Should(Equal(0))
Ω(summary.NumberOfFailedExamples).Should(Equal(0))
Ω(summary.RunTime).Should(Equal(time.Duration(0)))
})
It("publishes the correct example summaries", func() {
Ω(fakeR.exampleSummaries).Should(HaveLen(3))
Ω(fakeR.exampleSummaries[0]).Should(Equal(example1.summary()))
Ω(fakeR.exampleSummaries[1]).Should(Equal(example2.summary()))
Ω(fakeR.exampleSummaries[2]).Should(Equal(example3.summary()))
})
It("publishes the correct ending suite summary", func() {
summary := fakeR.endSummary
Ω(summary.SuiteDescription).Should(Equal("collection description"))
Ω(summary.SuiteSucceeded).Should(BeTrue())
Ω(summary.NumberOfExamplesBeforeParallelization).Should(Equal(3))
Ω(summary.NumberOfTotalExamples).Should(Equal(3))
Ω(summary.NumberOfExamplesThatWillBeRun).Should(Equal(1))
Ω(summary.NumberOfPendingExamples).Should(Equal(0))
Ω(summary.NumberOfSkippedExamples).Should(Equal(2))
Ω(summary.NumberOfPassedExamples).Should(Equal(1))
Ω(summary.NumberOfFailedExamples).Should(Equal(0))
Ω(summary.RunTime.Seconds()).Should(BeNumerically("~", 3*0.001, 0.01))
})
})
Context("when both a regexp skipString and focusString are provided", func() {
BeforeEach(func() {
conf.SkipString = `collection description.*2`
conf.FocusString = `collection description.*A`
example1 = exampleWithItFunc("A1", flagTypeFocused, false)
example2 = exampleWithItFunc("A2", flagTypeNone, false)
example3 = exampleWithItFunc("B1", flagTypeFocused, false)
})
It("ignores the programmatic focus and ANDs the focusString and skipString", func() {
Ω(examplesThatWereRun).Should(Equal([]string{"A1"}))
})
It("publishes the correct starting suite summary", func() {
summary := fakeR.beginSummary
Ω(summary.SuiteDescription).Should(Equal("collection description"))
Ω(summary.SuiteSucceeded).Should(BeTrue())
Ω(summary.NumberOfExamplesBeforeParallelization).Should(Equal(3))
Ω(summary.NumberOfTotalExamples).Should(Equal(3))
Ω(summary.NumberOfExamplesThatWillBeRun).Should(Equal(1))
Ω(summary.NumberOfPendingExamples).Should(Equal(0))
Ω(summary.NumberOfSkippedExamples).Should(Equal(2))
Ω(summary.NumberOfPassedExamples).Should(Equal(0))
Ω(summary.NumberOfFailedExamples).Should(Equal(0))
Ω(summary.RunTime).Should(Equal(time.Duration(0)))
})
It("publishes the correct example summaries", func() {
Ω(fakeR.exampleSummaries).Should(HaveLen(3))
Ω(fakeR.exampleSummaries[0]).Should(Equal(example1.summary()))
Ω(fakeR.exampleSummaries[1]).Should(Equal(example2.summary()))
Ω(fakeR.exampleSummaries[2]).Should(Equal(example3.summary()))
})
It("publishes the correct ending suite summary", func() {
summary := fakeR.endSummary
Ω(summary.SuiteDescription).Should(Equal("collection description"))
Ω(summary.SuiteSucceeded).Should(BeTrue())
Ω(summary.NumberOfExamplesBeforeParallelization).Should(Equal(3))
Ω(summary.NumberOfTotalExamples).Should(Equal(3))
Ω(summary.NumberOfExamplesThatWillBeRun).Should(Equal(1))
Ω(summary.NumberOfPendingExamples).Should(Equal(0))
Ω(summary.NumberOfSkippedExamples).Should(Equal(2))
Ω(summary.NumberOfPassedExamples).Should(Equal(1))
Ω(summary.NumberOfFailedExamples).Should(Equal(0))
Ω(summary.RunTime.Seconds()).Should(BeNumerically("~", 3*0.001, 0.01))
})
})
Context("when a examples are run in parallel", func() {
BeforeEach(func() {
conf.ParallelTotal = 2
conf.ParallelNode = 2
})
It("trims the example set before running them", func() {
Ω(examplesThatWereRun).Should(Equal([]string{"it 2", "it 3"}))
})
It("publishes the correct starting suite summary", func() {
summary := fakeR.beginSummary
Ω(summary.SuiteDescription).Should(Equal("collection description"))
Ω(summary.SuiteSucceeded).Should(BeTrue())
Ω(summary.NumberOfExamplesBeforeParallelization).Should(Equal(3))
Ω(summary.NumberOfTotalExamples).Should(Equal(2))
Ω(summary.NumberOfExamplesThatWillBeRun).Should(Equal(2))
Ω(summary.NumberOfPendingExamples).Should(Equal(0))
Ω(summary.NumberOfSkippedExamples).Should(Equal(0))
Ω(summary.NumberOfPassedExamples).Should(Equal(0))
Ω(summary.NumberOfFailedExamples).Should(Equal(0))
Ω(summary.RunTime).Should(Equal(time.Duration(0)))
})
It("publishes the correct example summaries", func() {
Ω(fakeR.exampleSummaries).Should(HaveLen(2))
Ω(fakeR.exampleSummaries[0]).Should(Equal(example2.summary()))
Ω(fakeR.exampleSummaries[1]).Should(Equal(example3.summary()))
})
It("publishes the correct ending suite summary", func() {
summary := fakeR.endSummary
Ω(summary.SuiteDescription).Should(Equal("collection description"))
Ω(summary.SuiteSucceeded).Should(BeTrue())
Ω(summary.NumberOfExamplesBeforeParallelization).Should(Equal(3))
Ω(summary.NumberOfTotalExamples).Should(Equal(2))
Ω(summary.NumberOfExamplesThatWillBeRun).Should(Equal(2))
Ω(summary.NumberOfPendingExamples).Should(Equal(0))
Ω(summary.NumberOfSkippedExamples).Should(Equal(0))
Ω(summary.NumberOfPassedExamples).Should(Equal(2))
Ω(summary.NumberOfFailedExamples).Should(Equal(0))
Ω(summary.RunTime.Seconds()).Should(BeNumerically("~", 3*0.001, 0.01))
})
})
})
Describe("measurements", func() {
exampleWithMeasure := func(text string) *example {
return newExample(newMeasureNode(text, func(b Benchmarker) {
examplesThatWereRun = append(examplesThatWereRun, text)
}, flagTypeNone, types.GenerateCodeLocation(0), 1))
}
var conf config.GinkgoConfigType
BeforeEach(func() {
conf = config.GinkgoConfigType{}
})
JustBeforeEach(func() {
collection = newExampleCollection(fakeT, "collection description", []*example{
exampleWithItFunc("C", flagTypeNone, false),
exampleWithItFunc("A", flagTypeNone, false),
exampleWithItFunc("B", flagTypeNone, false),
exampleWithMeasure("measure"),
}, []Reporter{fakeR}, conf)
collection.run()
})
It("runs the measurement", func() {
Ω(examplesThatWereRun).Should(ContainElement("A"))
Ω(examplesThatWereRun).Should(ContainElement("measure"))
})
Context("when instructed to skip measurements", func() {
BeforeEach(func() {
conf = config.GinkgoConfigType{
SkipMeasurements: true,
}
})
It("skips the measurements", func() {
Ω(examplesThatWereRun).Should(ContainElement("A"))
Ω(examplesThatWereRun).ShouldNot(ContainElement("measure"))
})
})
})
})
}