internal

package
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 Go to latest Published: Nov 16, 2021 License: MIT Imports: 17 Imported by: 0

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Constants

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const BAILOUT_MESSAGE = `` /* 1501-byte string literal not displayed */
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const BAILOUT_TIME = 1 * time.Second
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const Focus = focusType(true)
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const Ordered = orderedType(true)
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const Pending = pendingType(true)
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const Serial = serialType(true)

Variables

This section is empty.

Functions

func ApplyNestedFocusPolicyToTree 

func ApplyNestedFocusPolicyToTree(tree *TreeNode)

If a container marked as focus has a descendant that is also marked as focus, Ginkgo's policy is to unmark the container's focus. This gives developers a more intuitive experience when debugging specs. It is common to focus a container to just run a subset of specs, then identify the specific specs within the container to focus - this policy allows the developer to simply focus those specific specs and not need to go back and turn the focus off of the container:

As a common example, consider: 

FDescribe("something to debug", function() {
	It("works", function() {...})
	It("works", function() {...})
	FIt("doesn't work", function() {...})
	It("works", function() {...})
})

here the developer's intent is to focus in on the `"doesn't work"` spec and not to run the adjacent specs in the focused `"something to debug"` container. The nested policy applied by this function enables this behavior.

func MakeIncrementingIndexCounter 

func MakeIncrementingIndexCounter() func() (int, error)

func OrderSpecs 

func OrderSpecs(specs Specs, suiteConfig types.SuiteConfig) (GroupedSpecIndices, GroupedSpecIndices)

func PartitionDecorations 

func PartitionDecorations(args ...interface{}) ([]interface{}, []interface{})

func UniqueNodeID 

func UniqueNodeID() uint

Types

type Done 

type Done chan<- interface{} // Deprecated Done Channel for asynchronous testing

type Failer 

type Failer struct {
	// contains filtered or unexported fields
}

func NewFailer 

func NewFailer() *Failer

func (*Failer) AbortSuite 

func (f *Failer) AbortSuite(message string, location types.CodeLocation)

func (*Failer) Drain 

func (f *Failer) Drain() (types.SpecState, types.Failure)

func (*Failer) Fail 

func (f *Failer) Fail(message string, location types.CodeLocation)

func (*Failer) GetFailure 

func (f *Failer) GetFailure() types.Failure

func (*Failer) GetState 

func (f *Failer) GetState() types.SpecState

func (*Failer) Panic 

func (f *Failer) Panic(location types.CodeLocation, forwardedPanic interface{})

func (*Failer) Skip 

func (f *Failer) Skip(message string, location types.CodeLocation)

type FlakeAttempts 

type FlakeAttempts uint

type GroupedSpecIndices 

type GroupedSpecIndices []SpecIndices

type Labels 

type Labels []string

type Node 

type Node struct {
	ID       uint
	NodeType types.NodeType

	Text         string
	Body         func()
	CodeLocation types.CodeLocation
	NestingLevel int

	SynchronizedBeforeSuiteProc1Body    func() []byte
	SynchronizedBeforeSuiteAllProcsBody func([]byte)

	SynchronizedAfterSuiteAllProcsBody func()
	SynchronizedAfterSuiteProc1Body    func()

	ReportEachBody       func(types.SpecReport)
	ReportAfterSuiteBody func(types.Report)

	MarkedFocus   bool
	MarkedPending bool
	MarkedSerial  bool
	MarkedOrdered bool
	FlakeAttempts int
	Labels        Labels

	NodeIDWhereCleanupWasGenerated uint
}

func NewCleanupNode 

func NewCleanupNode(fail func(string, types.CodeLocation), args ...interface{}) (Node, []error)

func NewNode 

func NewNode(deprecationTracker *types.DeprecationTracker, nodeType types.NodeType, text string, args ...interface{}) (Node, []error)

func NewReportAfterEachNode 

func NewReportAfterEachNode(body func(types.SpecReport), codeLocation types.CodeLocation) (Node, []error)

func NewReportAfterSuiteNode 

func NewReportAfterSuiteNode(text string, body func(types.Report), codeLocation types.CodeLocation) (Node, []error)

func NewReportBeforeEachNode 

func NewReportBeforeEachNode(body func(types.SpecReport), codeLocation types.CodeLocation) (Node, []error)

func NewSynchronizedAfterSuiteNode 

func NewSynchronizedAfterSuiteNode(allProcsBody func(), proc1Body func(), codeLocation types.CodeLocation) (Node, []error)

func NewSynchronizedBeforeSuiteNode 

func NewSynchronizedBeforeSuiteNode(proc1Body func() []byte, allProcsBody func([]byte), codeLocation types.CodeLocation) (Node, []error)

func (Node) IsZero 

func (n Node) IsZero() bool

type Nodes 

type Nodes []Node

Nodes

func (Nodes) BestTextFor 

func (n Nodes) BestTextFor(node Node) string

func (Nodes) CodeLocations 

func (n Nodes) CodeLocations() []types.CodeLocation

func (Nodes) ContainsNodeID 

func (n Nodes) ContainsNodeID(id uint) bool

func (Nodes) CopyAppend 

func (n Nodes) CopyAppend(nodes ...Node) Nodes

func (Nodes) Filter 

func (n Nodes) Filter(filter func(Node) bool) Nodes

func (Nodes) FirstNodeMarkedOrdered 

func (n Nodes) FirstNodeMarkedOrdered() Node

func (Nodes) FirstNodeWithType 

func (n Nodes) FirstNodeWithType(nodeTypes types.NodeType) Node

func (Nodes) HasNodeMarkedFocus 

func (n Nodes) HasNodeMarkedFocus() bool

func (Nodes) HasNodeMarkedPending 

func (n Nodes) HasNodeMarkedPending() bool

func (Nodes) HasNodeMarkedSerial 

func (n Nodes) HasNodeMarkedSerial() bool

func (Nodes) Labels 

func (n Nodes) Labels() [][]string

func (Nodes) Reverse 

func (n Nodes) Reverse() Nodes

func (Nodes) SortedByAscendingNestingLevel 

func (n Nodes) SortedByAscendingNestingLevel() Nodes

func (Nodes) SortedByDescendingNestingLevel 

func (n Nodes) SortedByDescendingNestingLevel() Nodes

func (Nodes) SplitAround 

func (n Nodes) SplitAround(pivot Node) (Nodes, Nodes)

func (Nodes) Texts 

func (n Nodes) Texts() []string

func (Nodes) UnionOfLabels 

func (n Nodes) UnionOfLabels() []string

func (Nodes) WithType 

func (n Nodes) WithType(nodeTypes types.NodeType) Nodes

func (Nodes) WithinNestingLevel 

func (n Nodes) WithinNestingLevel(deepestNestingLevel int) Nodes

func (Nodes) WithoutNode 

func (n Nodes) WithoutNode(nodeToExclude Node) Nodes

func (Nodes) WithoutType 

func (n Nodes) WithoutType(nodeTypes types.NodeType) Nodes

type NoopOutputInterceptor 

type NoopOutputInterceptor struct{}

func (NoopOutputInterceptor) PauseIntercepting 

func (interceptor NoopOutputInterceptor) PauseIntercepting()

func (NoopOutputInterceptor) ResumeIntercepting 

func (interceptor NoopOutputInterceptor) ResumeIntercepting()

func (NoopOutputInterceptor) Shutdown 

func (interceptor NoopOutputInterceptor) Shutdown()

func (NoopOutputInterceptor) StartInterceptingOutput 

func (interceptor NoopOutputInterceptor) StartInterceptingOutput()

func (NoopOutputInterceptor) StartInterceptingOutputAndForwardTo 

func (interceptor NoopOutputInterceptor) StartInterceptingOutputAndForwardTo(io.Writer)

func (NoopOutputInterceptor) StopInterceptingAndReturnOutput 

func (interceptor NoopOutputInterceptor) StopInterceptingAndReturnOutput() string

type Offset 

type Offset uint

type OutputInterceptor 

type OutputInterceptor interface {
	StartInterceptingOutput()
	StartInterceptingOutputAndForwardTo(io.Writer)
	StopInterceptingAndReturnOutput() string

	PauseIntercepting()
	ResumeIntercepting()

	Shutdown()
}

The OutputInterceptor is used by to intercept and capture all stdin and stderr output during a test run.

func NewOSGlobalReassigningOutputInterceptor 

func NewOSGlobalReassigningOutputInterceptor() OutputInterceptor

This is used on windows builds but included here so it can be explicitly tested on unix systems too

func NewOutputInterceptor 

func NewOutputInterceptor() OutputInterceptor

type Phase 

type Phase uint
const (
	PhaseBuildTopLevel Phase = iota
	PhaseBuildTree
	PhaseRun
)

type ReportEntry 

type ReportEntry = types.ReportEntry

func NewReportEntry 

func NewReportEntry(name string, cl types.CodeLocation, args ...interface{}) (ReportEntry, error)

type Spec 

type Spec struct {
	Nodes Nodes
	Skip  bool
}

func (Spec) FirstNodeWithType 

func (s Spec) FirstNodeWithType(nodeTypes types.NodeType) Node

func (Spec) FlakeAttempts 

func (s Spec) FlakeAttempts() int

func (Spec) Text 

func (s Spec) Text() string

type SpecIndices 

type SpecIndices []int

type Specs 

type Specs []Spec

func ApplyFocusToSpecs 

func ApplyFocusToSpecs(specs Specs, description string, suiteConfig types.SuiteConfig) (Specs, bool)

Ginkgo supports focussing specs using `FIt`, `FDescribe`, etc. - this is called "programmatic focus" It also supports focussing specs using regular expressions on the command line (`-focus=`, `-skip=`) that match against spec text and file filters (`-focus-files=`, `-skip-files=`) that match against code locations for nodes in specs.

If any of the CLI flags are provided they take precedence. The file filters run first followed by the regex filters.

This function sets the `Skip` property on specs by applying Ginkgo's focus policy: - If there are no CLI arguments and no programmatic focus, do nothing. - If there are no CLI arguments but a spec somewhere has programmatic focus, skip any specs that have no programmatic focus. - If there are CLI arguments parse them and skip any specs that either don't match the focus filters or do match the skip filters.

*Note:* specs with pending nodes are Skipped when created by NewSpec.

func GenerateSpecsFromTreeRoot 

func GenerateSpecsFromTreeRoot(tree *TreeNode) Specs

func (Specs) AtIndices 

func (s Specs) AtIndices(indices SpecIndices) Specs

func (Specs) CountWithoutSkip 

func (s Specs) CountWithoutSkip() int

func (Specs) HasAnySpecsMarkedPending 

func (s Specs) HasAnySpecsMarkedPending() bool

type Suite 

type Suite struct {
	// contains filtered or unexported fields
}

func NewSuite 

func NewSuite() *Suite

func (*Suite) AddReportEntry 

func (suite *Suite) AddReportEntry(entry ReportEntry) error

func (*Suite) BuildTree 

func (suite *Suite) BuildTree() error

func (*Suite) CurrentSpecReport 

func (suite *Suite) CurrentSpecReport() types.SpecReport

Spec Running methods - used during PhaseRun

func (*Suite) PushNode 

func (suite *Suite) PushNode(node Node) error

func (*Suite) Run 

func (suite *Suite) Run(description string, suitePath string, failer *Failer, reporter reporters.Reporter, writer WriterInterface, outputInterceptor OutputInterceptor, interruptHandler interrupt_handler.InterruptHandlerInterface, client parallel_support.Client, suiteConfig types.SuiteConfig) (bool, bool)

type TreeNode 

type TreeNode struct {
	Node     Node
	Parent   *TreeNode
	Children TreeNodes
}

func (*TreeNode) AncestorNodeChain 

func (tn *TreeNode) AncestorNodeChain() Nodes

func (*TreeNode) AppendChild 

func (tn *TreeNode) AppendChild(child *TreeNode)

type TreeNodes 

type TreeNodes []*TreeNode

func (TreeNodes) Nodes 

func (tn TreeNodes) Nodes() Nodes

func (TreeNodes) WithID 

func (tn TreeNodes) WithID(id uint) *TreeNode

type Writer 

type Writer struct {
	// contains filtered or unexported fields
}

Writer impplements WriterInterface and GinkgoWriterInterface

func NewWriter 

func NewWriter(outWriter io.Writer) *Writer

func (*Writer) Bytes 

func (w *Writer) Bytes() []byte

func (*Writer) ClearTeeWriters 

func (w *Writer) ClearTeeWriters()

func (*Writer) Print 

func (w *Writer) Print(a ...interface{})

func (*Writer) Printf 

func (w *Writer) Printf(format string, a ...interface{})

func (*Writer) Println 

func (w *Writer) Println(a ...interface{})

func (*Writer) SetMode 

func (w *Writer) SetMode(mode WriterMode)

func (*Writer) TeeTo 

func (w *Writer) TeeTo(writer io.Writer)

GinkgoWriterInterface

func (*Writer) Truncate 

func (w *Writer) Truncate()

func (*Writer) Write 

func (w *Writer) Write(b []byte) (n int, err error)

type WriterInterface 

type WriterInterface interface {
	io.Writer

	Truncate()
	Bytes() []byte
}

type WriterMode 

type WriterMode uint
const (
	WriterModeStreamAndBuffer WriterMode = iota
	WriterModeBufferOnly
)

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