diff options
Diffstat (limited to 'vendor/github.com/onsi/ginkgo/internal/spec/spec_test.go')
-rw-r--r-- | vendor/github.com/onsi/ginkgo/internal/spec/spec_test.go | 739 |
1 files changed, 739 insertions, 0 deletions
diff --git a/vendor/github.com/onsi/ginkgo/internal/spec/spec_test.go b/vendor/github.com/onsi/ginkgo/internal/spec/spec_test.go new file mode 100644 index 000000000..b4a2c9c79 --- /dev/null +++ b/vendor/github.com/onsi/ginkgo/internal/spec/spec_test.go @@ -0,0 +1,739 @@ +package spec_test + +import ( + "time" + + . "github.com/onsi/ginkgo" + . "github.com/onsi/gomega" + "github.com/onsi/gomega/gbytes" + + . "github.com/onsi/ginkgo/internal/spec" + + "github.com/onsi/ginkgo/internal/codelocation" + "github.com/onsi/ginkgo/internal/containernode" + Failer "github.com/onsi/ginkgo/internal/failer" + "github.com/onsi/ginkgo/internal/leafnodes" + "github.com/onsi/ginkgo/types" +) + +var noneFlag = types.FlagTypeNone +var focusedFlag = types.FlagTypeFocused +var pendingFlag = types.FlagTypePending + +var _ = Describe("Spec", func() { + var ( + failer *Failer.Failer + codeLocation types.CodeLocation + nodesThatRan []string + spec *Spec + buffer *gbytes.Buffer + ) + + newBody := func(text string, fail bool) func() { + return func() { + nodesThatRan = append(nodesThatRan, text) + if fail { + failer.Fail(text, codeLocation) + } + } + } + + newIt := func(text string, flag types.FlagType, fail bool) *leafnodes.ItNode { + return leafnodes.NewItNode(text, newBody(text, fail), flag, codeLocation, 0, failer, 0) + } + + newItWithBody := func(text string, body interface{}) *leafnodes.ItNode { + return leafnodes.NewItNode(text, body, noneFlag, codeLocation, 0, failer, 0) + } + + newMeasure := func(text string, flag types.FlagType, fail bool, samples int) *leafnodes.MeasureNode { + return leafnodes.NewMeasureNode(text, func(Benchmarker) { + nodesThatRan = append(nodesThatRan, text) + if fail { + failer.Fail(text, codeLocation) + } + }, flag, codeLocation, samples, failer, 0) + } + + newBef := func(text string, fail bool) leafnodes.BasicNode { + return leafnodes.NewBeforeEachNode(newBody(text, fail), codeLocation, 0, failer, 0) + } + + newAft := func(text string, fail bool) leafnodes.BasicNode { + return leafnodes.NewAfterEachNode(newBody(text, fail), codeLocation, 0, failer, 0) + } + + newJusBef := func(text string, fail bool) leafnodes.BasicNode { + return leafnodes.NewJustBeforeEachNode(newBody(text, fail), codeLocation, 0, failer, 0) + } + + newJusAft := func(text string, fail bool) leafnodes.BasicNode { + return leafnodes.NewJustAfterEachNode(newBody(text, fail), codeLocation, 0, failer, 0) + } + + newContainer := func(text string, flag types.FlagType, setupNodes ...leafnodes.BasicNode) *containernode.ContainerNode { + c := containernode.New(text, flag, codeLocation) + for _, node := range setupNodes { + c.PushSetupNode(node) + } + return c + } + + containers := func(containers ...*containernode.ContainerNode) []*containernode.ContainerNode { + return containers + } + + BeforeEach(func() { + buffer = gbytes.NewBuffer() + failer = Failer.New() + codeLocation = codelocation.New(0) + nodesThatRan = []string{} + }) + + Describe("marking specs focused and pending", func() { + It("should satisfy various caes", func() { + cases := []struct { + ContainerFlags []types.FlagType + SubjectFlag types.FlagType + Pending bool + Focused bool + }{ + {[]types.FlagType{}, noneFlag, false, false}, + {[]types.FlagType{}, focusedFlag, false, true}, + {[]types.FlagType{}, pendingFlag, true, false}, + {[]types.FlagType{noneFlag}, noneFlag, false, false}, + {[]types.FlagType{focusedFlag}, noneFlag, false, true}, + {[]types.FlagType{pendingFlag}, noneFlag, true, false}, + {[]types.FlagType{noneFlag}, focusedFlag, false, true}, + {[]types.FlagType{focusedFlag}, focusedFlag, false, true}, + {[]types.FlagType{pendingFlag}, focusedFlag, true, true}, + {[]types.FlagType{noneFlag}, pendingFlag, true, false}, + {[]types.FlagType{focusedFlag}, pendingFlag, true, true}, + {[]types.FlagType{pendingFlag}, pendingFlag, true, false}, + {[]types.FlagType{focusedFlag, noneFlag}, noneFlag, false, true}, + {[]types.FlagType{noneFlag, focusedFlag}, noneFlag, false, true}, + {[]types.FlagType{pendingFlag, noneFlag}, noneFlag, true, false}, + {[]types.FlagType{noneFlag, pendingFlag}, noneFlag, true, false}, + {[]types.FlagType{focusedFlag, pendingFlag}, noneFlag, true, true}, + } + + for i, c := range cases { + subject := newIt("it node", c.SubjectFlag, false) + containers := []*containernode.ContainerNode{} + for _, flag := range c.ContainerFlags { + containers = append(containers, newContainer("container", flag)) + } + + spec := New(subject, containers, false) + Ω(spec.Pending()).Should(Equal(c.Pending), "Case %d: %#v", i, c) + Ω(spec.Focused()).Should(Equal(c.Focused), "Case %d: %#v", i, c) + + if c.Pending { + Ω(spec.Summary("").State).Should(Equal(types.SpecStatePending)) + } + } + }) + }) + + Describe("Skip", func() { + It("should be skipped", func() { + spec := New(newIt("it node", noneFlag, false), containers(newContainer("container", noneFlag)), false) + Ω(spec.Skipped()).Should(BeFalse()) + spec.Skip() + Ω(spec.Skipped()).Should(BeTrue()) + Ω(spec.Summary("").State).Should(Equal(types.SpecStateSkipped)) + }) + }) + + Describe("IsMeasurement", func() { + It("should be true if the subject is a measurement node", func() { + spec := New(newIt("it node", noneFlag, false), containers(newContainer("container", noneFlag)), false) + Ω(spec.IsMeasurement()).Should(BeFalse()) + Ω(spec.Summary("").IsMeasurement).Should(BeFalse()) + Ω(spec.Summary("").NumberOfSamples).Should(Equal(1)) + + spec = New(newMeasure("measure node", noneFlag, false, 10), containers(newContainer("container", noneFlag)), false) + Ω(spec.IsMeasurement()).Should(BeTrue()) + Ω(spec.Summary("").IsMeasurement).Should(BeTrue()) + Ω(spec.Summary("").NumberOfSamples).Should(Equal(10)) + }) + }) + + Describe("Passed", func() { + It("should pass when the subject passed", func() { + spec := New(newIt("it node", noneFlag, false), containers(), false) + spec.Run(buffer) + + Ω(spec.Passed()).Should(BeTrue()) + Ω(spec.Failed()).Should(BeFalse()) + Ω(spec.Summary("").State).Should(Equal(types.SpecStatePassed)) + Ω(spec.Summary("").Failure).Should(BeZero()) + }) + }) + + Describe("Flaked", func() { + It("should work if Run is called twice and gets different results", func() { + i := 0 + spec := New(newItWithBody("flaky it", func() { + i++ + if i == 1 { + failer.Fail("oops", codeLocation) + } + }), containers(), false) + spec.Run(buffer) + Ω(spec.Passed()).Should(BeFalse()) + Ω(spec.Failed()).Should(BeTrue()) + Ω(spec.Flaked()).Should(BeFalse()) + Ω(spec.Summary("").State).Should(Equal(types.SpecStateFailed)) + Ω(spec.Summary("").Failure.Message).Should(Equal("oops")) + spec.Run(buffer) + Ω(spec.Passed()).Should(BeTrue()) + Ω(spec.Failed()).Should(BeFalse()) + Ω(spec.Flaked()).Should(BeTrue()) + Ω(spec.Summary("").State).Should(Equal(types.SpecStatePassed)) + }) + }) + + Describe("Failed", func() { + It("should be failed if the failure was panic", func() { + spec := New(newItWithBody("panicky it", func() { + panic("bam") + }), containers(), false) + spec.Run(buffer) + Ω(spec.Passed()).Should(BeFalse()) + Ω(spec.Failed()).Should(BeTrue()) + Ω(spec.Summary("").State).Should(Equal(types.SpecStatePanicked)) + Ω(spec.Summary("").Failure.Message).Should(Equal("Test Panicked")) + Ω(spec.Summary("").Failure.ForwardedPanic).Should(Equal("bam")) + }) + + It("should be failed if the failure was a timeout", func() { + spec := New(newItWithBody("sleepy it", func(done Done) {}), containers(), false) + spec.Run(buffer) + Ω(spec.Passed()).Should(BeFalse()) + Ω(spec.Failed()).Should(BeTrue()) + Ω(spec.Summary("").State).Should(Equal(types.SpecStateTimedOut)) + Ω(spec.Summary("").Failure.Message).Should(Equal("Timed out")) + }) + + It("should be failed if the failure was... a failure", func() { + spec := New(newItWithBody("failing it", func() { + failer.Fail("bam", codeLocation) + }), containers(), false) + spec.Run(buffer) + Ω(spec.Passed()).Should(BeFalse()) + Ω(spec.Failed()).Should(BeTrue()) + Ω(spec.Summary("").State).Should(Equal(types.SpecStateFailed)) + Ω(spec.Summary("").Failure.Message).Should(Equal("bam")) + }) + }) + + Describe("Concatenated string", func() { + It("should concatenate the texts of the containers and the subject", func() { + spec := New( + newIt("it node", noneFlag, false), + containers( + newContainer("outer container", noneFlag), + newContainer("inner container", noneFlag), + ), + false, + ) + + Ω(spec.ConcatenatedString()).Should(Equal("outer container inner container it node")) + }) + }) + + Describe("running it specs", func() { + Context("with just an it", func() { + Context("that succeeds", func() { + It("should run the it and report on its success", func() { + spec := New(newIt("it node", noneFlag, false), containers(), false) + spec.Run(buffer) + Ω(spec.Passed()).Should(BeTrue()) + Ω(spec.Failed()).Should(BeFalse()) + Ω(nodesThatRan).Should(Equal([]string{"it node"})) + }) + }) + + Context("that fails", func() { + It("should run the it and report on its success", func() { + spec := New(newIt("it node", noneFlag, true), containers(), false) + spec.Run(buffer) + Ω(spec.Passed()).Should(BeFalse()) + Ω(spec.Failed()).Should(BeTrue()) + Ω(spec.Summary("").Failure.Message).Should(Equal("it node")) + Ω(nodesThatRan).Should(Equal([]string{"it node"})) + }) + }) + }) + + Context("with a full set of setup nodes", func() { + var failingNodes map[string]bool + + BeforeEach(func() { + failingNodes = map[string]bool{} + }) + + JustBeforeEach(func() { + spec = New( + newIt("it node", noneFlag, failingNodes["it node"]), + containers( + newContainer("outer container", noneFlag, + newBef("outer bef A", failingNodes["outer bef A"]), + newBef("outer bef B", failingNodes["outer bef B"]), + newJusBef("outer jusbef A", failingNodes["outer jusbef A"]), + newJusBef("outer jusbef B", failingNodes["outer jusbef B"]), + newJusAft("outer jusaft A", failingNodes["outer jusaft A"]), + newJusAft("outer jusaft B", failingNodes["outer jusaft B"]), + newAft("outer aft A", failingNodes["outer aft A"]), + newAft("outer aft B", failingNodes["outer aft B"]), + ), + newContainer("inner container", noneFlag, + newBef("inner bef A", failingNodes["inner bef A"]), + newBef("inner bef B", failingNodes["inner bef B"]), + newJusBef("inner jusbef A", failingNodes["inner jusbef A"]), + newJusBef("inner jusbef B", failingNodes["inner jusbef B"]), + newJusAft("inner jusaft A", failingNodes["inner jusaft A"]), + newJusAft("inner jusaft B", failingNodes["inner jusaft B"]), + newAft("inner aft A", failingNodes["inner aft A"]), + newAft("inner aft B", failingNodes["inner aft B"]), + ), + ), + false, + ) + spec.Run(buffer) + }) + + Context("that all pass", func() { + It("should walk through the nodes in the correct order", func() { + Ω(spec.Passed()).Should(BeTrue()) + Ω(spec.Failed()).Should(BeFalse()) + Ω(nodesThatRan).Should(Equal([]string{ + "outer bef A", + "outer bef B", + "inner bef A", + "inner bef B", + "outer jusbef A", + "outer jusbef B", + "inner jusbef A", + "inner jusbef B", + "it node", + "inner jusaft A", + "inner jusaft B", + "outer jusaft A", + "outer jusaft B", + "inner aft A", + "inner aft B", + "outer aft A", + "outer aft B", + })) + }) + }) + + Context("when the subject fails", func() { + BeforeEach(func() { + failingNodes["it node"] = true + }) + + It("should run the afters", func() { + Ω(spec.Passed()).Should(BeFalse()) + Ω(spec.Failed()).Should(BeTrue()) + Ω(nodesThatRan).Should(Equal([]string{ + "outer bef A", + "outer bef B", + "inner bef A", + "inner bef B", + "outer jusbef A", + "outer jusbef B", + "inner jusbef A", + "inner jusbef B", + "it node", + "inner jusaft A", + "inner jusaft B", + "outer jusaft A", + "outer jusaft B", + "inner aft A", + "inner aft B", + "outer aft A", + "outer aft B", + })) + Ω(spec.Summary("").Failure.Message).Should(Equal("it node")) + }) + }) + + Context("when an inner before fails", func() { + BeforeEach(func() { + failingNodes["inner bef A"] = true + }) + + It("should not run any other befores, but it should run the subsequent afters", func() { + Ω(spec.Passed()).Should(BeFalse()) + Ω(spec.Failed()).Should(BeTrue()) + Ω(nodesThatRan).Should(Equal([]string{ + "outer bef A", + "outer bef B", + "inner bef A", + "inner jusaft A", + "inner jusaft B", + "outer jusaft A", + "outer jusaft B", + "inner aft A", + "inner aft B", + "outer aft A", + "outer aft B", + })) + Ω(spec.Summary("").Failure.Message).Should(Equal("inner bef A")) + }) + }) + + Context("when an outer before fails", func() { + BeforeEach(func() { + failingNodes["outer bef B"] = true + }) + + It("should not run any other befores, but it should run the subsequent afters", func() { + Ω(spec.Passed()).Should(BeFalse()) + Ω(spec.Failed()).Should(BeTrue()) + Ω(nodesThatRan).Should(Equal([]string{ + "outer bef A", + "outer bef B", + "outer jusaft A", + "outer jusaft B", + "outer aft A", + "outer aft B", + })) + Ω(spec.Summary("").Failure.Message).Should(Equal("outer bef B")) + }) + }) + + Context("when an after fails", func() { + BeforeEach(func() { + failingNodes["inner aft B"] = true + }) + + It("should run all other afters, but mark the test as failed", func() { + Ω(spec.Passed()).Should(BeFalse()) + Ω(spec.Failed()).Should(BeTrue()) + Ω(nodesThatRan).Should(Equal([]string{ + "outer bef A", + "outer bef B", + "inner bef A", + "inner bef B", + "outer jusbef A", + "outer jusbef B", + "inner jusbef A", + "inner jusbef B", + "it node", + "inner jusaft A", + "inner jusaft B", + "outer jusaft A", + "outer jusaft B", + "inner aft A", + "inner aft B", + "outer aft A", + "outer aft B", + })) + Ω(spec.Summary("").Failure.Message).Should(Equal("inner aft B")) + }) + }) + + Context("when a just before each fails", func() { + BeforeEach(func() { + failingNodes["outer jusbef B"] = true + }) + + It("should run the afters, but not the subject", func() { + Ω(spec.Passed()).Should(BeFalse()) + Ω(spec.Failed()).Should(BeTrue()) + Ω(nodesThatRan).Should(Equal([]string{ + "outer bef A", + "outer bef B", + "inner bef A", + "inner bef B", + "outer jusbef A", + "outer jusbef B", + "inner jusaft A", + "inner jusaft B", + "outer jusaft A", + "outer jusaft B", + "inner aft A", + "inner aft B", + "outer aft A", + "outer aft B", + })) + Ω(spec.Summary("").Failure.Message).Should(Equal("outer jusbef B")) + }) + }) + + Context("when a just after each fails", func() { + BeforeEach(func() { + failingNodes["outer jusaft A"] = true + }) + + It("should run all other afters, but mark the test as failed", func() { + Ω(spec.Passed()).Should(BeFalse()) + Ω(spec.Failed()).Should(BeTrue()) + Ω(nodesThatRan).Should(Equal([]string{ + "outer bef A", + "outer bef B", + "inner bef A", + "inner bef B", + "outer jusbef A", + "outer jusbef B", + "inner jusbef A", + "inner jusbef B", + "it node", + "inner jusaft A", + "inner jusaft B", + "outer jusaft A", + "outer jusaft B", + "inner aft A", + "inner aft B", + "outer aft A", + "outer aft B", + })) + Ω(spec.Summary("").Failure.Message).Should(Equal("outer jusaft A")) + }) + }) + + Context("when an after fails after an earlier node has failed", func() { + BeforeEach(func() { + failingNodes["it node"] = true + failingNodes["inner aft B"] = true + }) + + It("should record the earlier failure", func() { + Ω(spec.Passed()).Should(BeFalse()) + Ω(spec.Failed()).Should(BeTrue()) + Ω(nodesThatRan).Should(Equal([]string{ + "outer bef A", + "outer bef B", + "inner bef A", + "inner bef B", + "outer jusbef A", + "outer jusbef B", + "inner jusbef A", + "inner jusbef B", + "it node", + "inner jusaft A", + "inner jusaft B", + "outer jusaft A", + "outer jusaft B", + "inner aft A", + "inner aft B", + "outer aft A", + "outer aft B", + })) + Ω(spec.Summary("").Failure.Message).Should(Equal("it node")) + }) + }) + }) + }) + + Describe("running measurement specs", func() { + Context("when the measurement succeeds", func() { + It("should run N samples", func() { + spec = New( + newMeasure("measure node", noneFlag, false, 3), + containers( + newContainer("container", noneFlag, + newBef("bef A", false), + newJusBef("jusbef A", false), + newJusAft("jusaft A", false), + newAft("aft A", false), + ), + ), + false, + ) + spec.Run(buffer) + + Ω(spec.Passed()).Should(BeTrue()) + Ω(spec.Failed()).Should(BeFalse()) + Ω(nodesThatRan).Should(Equal([]string{ + "bef A", + "jusbef A", + "measure node", + "jusaft A", + "aft A", + "bef A", + "jusbef A", + "measure node", + "jusaft A", + "aft A", + "bef A", + "jusbef A", + "measure node", + "jusaft A", + "aft A", + })) + }) + }) + + Context("when the measurement fails", func() { + It("should bail after the failure occurs", func() { + spec = New( + newMeasure("measure node", noneFlag, true, 3), + containers( + newContainer("container", noneFlag, + newBef("bef A", false), + newJusBef("jusbef A", false), + newJusAft("jusaft A", false), + newAft("aft A", false), + ), + ), + false, + ) + spec.Run(buffer) + + Ω(spec.Passed()).Should(BeFalse()) + Ω(spec.Failed()).Should(BeTrue()) + Ω(nodesThatRan).Should(Equal([]string{ + "bef A", + "jusbef A", + "measure node", + "jusaft A", + "aft A", + })) + }) + }) + }) + + Describe("Summary", func() { + var ( + subjectCodeLocation types.CodeLocation + outerContainerCodeLocation types.CodeLocation + innerContainerCodeLocation types.CodeLocation + summary *types.SpecSummary + ) + + BeforeEach(func() { + subjectCodeLocation = codelocation.New(0) + outerContainerCodeLocation = codelocation.New(0) + innerContainerCodeLocation = codelocation.New(0) + + spec = New( + leafnodes.NewItNode("it node", func() { + time.Sleep(10 * time.Millisecond) + }, noneFlag, subjectCodeLocation, 0, failer, 0), + containers( + containernode.New("outer container", noneFlag, outerContainerCodeLocation), + containernode.New("inner container", noneFlag, innerContainerCodeLocation), + ), + false, + ) + + spec.Run(buffer) + Ω(spec.Passed()).Should(BeTrue()) + summary = spec.Summary("suite id") + }) + + It("should have the suite id", func() { + Ω(summary.SuiteID).Should(Equal("suite id")) + }) + + It("should have the component texts and code locations", func() { + Ω(summary.ComponentTexts).Should(Equal([]string{"outer container", "inner container", "it node"})) + Ω(summary.ComponentCodeLocations).Should(Equal([]types.CodeLocation{outerContainerCodeLocation, innerContainerCodeLocation, subjectCodeLocation})) + }) + + It("should have a runtime", func() { + Ω(summary.RunTime).Should(BeNumerically(">=", 10*time.Millisecond)) + }) + + It("should have a runtime which remains consistent after spec run", func() { + totalRunTime := summary.RunTime + Ω(totalRunTime).Should(BeNumerically(">=", 10*time.Millisecond)) + + Consistently(func() time.Duration { return spec.Summary("suite id").RunTime }).Should(Equal(totalRunTime)) + }) + + It("should not be a measurement, or have a measurement summary", func() { + Ω(summary.IsMeasurement).Should(BeFalse()) + Ω(summary.Measurements).Should(BeEmpty()) + }) + }) + + Describe("Summaries for measurements", func() { + var summary *types.SpecSummary + + BeforeEach(func() { + spec = New(leafnodes.NewMeasureNode("measure node", func(b Benchmarker) { + b.RecordValue("a value", 7, "some info") + b.RecordValueWithPrecision("another value", 8, "ns", 5, "more info") + }, noneFlag, codeLocation, 4, failer, 0), containers(), false) + spec.Run(buffer) + Ω(spec.Passed()).Should(BeTrue()) + summary = spec.Summary("suite id") + }) + + It("should include the number of samples", func() { + Ω(summary.NumberOfSamples).Should(Equal(4)) + }) + + It("should be a measurement", func() { + Ω(summary.IsMeasurement).Should(BeTrue()) + }) + + It("should have the measurements report", func() { + Ω(summary.Measurements).Should(HaveKey("a value")) + report := summary.Measurements["a value"] + Ω(report.Name).Should(Equal("a value")) + Ω(report.Info).Should(Equal("some info")) + Ω(report.Results).Should(Equal([]float64{7, 7, 7, 7})) + + Ω(summary.Measurements).Should(HaveKey("another value")) + report = summary.Measurements["another value"] + Ω(report.Name).Should(Equal("another value")) + Ω(report.Info).Should(Equal("more info")) + Ω(report.Results).Should(Equal([]float64{8, 8, 8, 8})) + Ω(report.Units).Should(Equal("ns")) + Ω(report.Precision).Should(Equal(5)) + }) + }) + + Describe("When told to emit progress", func() { + It("should emit progress to the writer as it runs Befores, JustBefores, Afters, and Its", func() { + spec = New( + newIt("it node", noneFlag, false), + containers( + newContainer("outer container", noneFlag, + newBef("outer bef A", false), + newJusBef("outer jusbef A", false), + newJusAft("outer jusaft A", false), + newAft("outer aft A", false), + ), + newContainer("inner container", noneFlag, + newBef("inner bef A", false), + newJusBef("inner jusbef A", false), + newJusAft("inner jusaft A", false), + newAft("inner aft A", false), + ), + ), + true, + ) + spec.Run(buffer) + + Ω(buffer).Should(gbytes.Say(`\[BeforeEach\] outer container`)) + Ω(buffer).Should(gbytes.Say(`\[BeforeEach\] inner container`)) + Ω(buffer).Should(gbytes.Say(`\[JustBeforeEach\] outer container`)) + Ω(buffer).Should(gbytes.Say(`\[JustBeforeEach\] inner container`)) + Ω(buffer).Should(gbytes.Say(`\[It\] it node`)) + Ω(buffer).Should(gbytes.Say(`\[JustAfterEach\] inner container`)) + Ω(buffer).Should(gbytes.Say(`\[JustAfterEach\] outer container`)) + Ω(buffer).Should(gbytes.Say(`\[AfterEach\] inner container`)) + Ω(buffer).Should(gbytes.Say(`\[AfterEach\] outer container`)) + }) + + It("should emit progress to the writer as it runs Befores, JustBefores, JustAfters, Afters, and Measures", func() { + spec = New( + newMeasure("measure node", noneFlag, false, 2), + containers(), + true, + ) + spec.Run(buffer) + + Ω(buffer).Should(gbytes.Say(`\[Measure\] measure node`)) + Ω(buffer).Should(gbytes.Say(`\[Measure\] measure node`)) + }) + }) +}) |