metrics-server/vendor/github.com/onsi/ginkgo/internal/spec/specs.go - kubeia - Gitiles

 package spec

 import (
 	"math/rand"
 	"regexp"
 	"sort"
 )

 type Specs struct {
 	specs                []*Spec
 	hasProgrammaticFocus bool
 	RegexScansFilePath   bool
 }

 func NewSpecs(specs []*Spec) *Specs {
 	return &Specs{
 		specs: specs,
 	}
 }

 func (e *Specs) Specs() []*Spec {
 	return e.specs
 }

 func (e *Specs) HasProgrammaticFocus() bool {
 	return e.hasProgrammaticFocus
 }

 func (e *Specs) Shuffle(r *rand.Rand) {
 	sort.Sort(e)
 	permutation := r.Perm(len(e.specs))
 	shuffledSpecs := make([]*Spec, len(e.specs))
 	for i, j := range permutation {
 		shuffledSpecs[i] = e.specs[j]
 	}
 	e.specs = shuffledSpecs
 }

 func (e *Specs) ApplyFocus(description string, focusString string, skipString string) {
 	if focusString == "" && skipString == "" {
 		e.applyProgrammaticFocus()
 	} else {
 		e.applyRegExpFocusAndSkip(description, focusString, skipString)
 	}
 }

 func (e *Specs) applyProgrammaticFocus() {
 	e.hasProgrammaticFocus = false
 	for _, spec := range e.specs {
 		if spec.Focused() && !spec.Pending() {
 			e.hasProgrammaticFocus = true
 			break
 		}
 	}

 	if e.hasProgrammaticFocus {
 		for _, spec := range e.specs {
 			if !spec.Focused() {
 				spec.Skip()
 			}
 		}
 	}
 }

 // toMatch returns a byte[] to be used by regex matchers.  When adding new behaviours to the matching function,
 // this is the place which we append to.
 func (e *Specs) toMatch(description string, spec *Spec) []byte {
 	if e.RegexScansFilePath {
 		return []byte(
 			description + " " +
 				spec.ConcatenatedString() + " " +
 				spec.subject.CodeLocation().FileName)
 	} else {
 		return []byte(
 			description + " " +
 				spec.ConcatenatedString())
 	}
 }

 func (e *Specs) applyRegExpFocusAndSkip(description string, focusString string, skipString string) {
 	for _, spec := range e.specs {
 		matchesFocus := true
 		matchesSkip := false

 		toMatch := e.toMatch(description, spec)

 		if focusString != "" {
 			focusFilter := regexp.MustCompile(focusString)
 			matchesFocus = focusFilter.Match([]byte(toMatch))
 		}

 		if skipString != "" {
 			skipFilter := regexp.MustCompile(skipString)
 			matchesSkip = skipFilter.Match([]byte(toMatch))
 		}

 		if !matchesFocus || matchesSkip {
 			spec.Skip()
 		}
 	}
 }

 func (e *Specs) SkipMeasurements() {
 	for _, spec := range e.specs {
 		if spec.IsMeasurement() {
 			spec.Skip()
 		}
 	}
 }

 //sort.Interface

 func (e *Specs) Len() int {
 	return len(e.specs)
 }

 func (e *Specs) Less(i, j int) bool {
 	return e.specs[i].ConcatenatedString() < e.specs[j].ConcatenatedString()
 }

 func (e *Specs) Swap(i, j int) {
 	e.specs[i], e.specs[j] = e.specs[j], e.specs[i]
 }
	package spec

	import (
	"math/rand"
	"regexp"
	"sort"
	)

	type Specs struct {
	specs []*Spec
	hasProgrammaticFocus bool
	RegexScansFilePath bool
	}

	func NewSpecs(specs []Spec) Specs {
	return &Specs{
	specs: specs,
	}
	}

	func (e Specs) Specs() []Spec {
	return e.specs
	}

	func (e *Specs) HasProgrammaticFocus() bool {
	return e.hasProgrammaticFocus
	}

	func (e Specs) Shuffle(r rand.Rand) {
	sort.Sort(e)
	permutation := r.Perm(len(e.specs))
	shuffledSpecs := make([]*Spec, len(e.specs))
	for i, j := range permutation {
	shuffledSpecs[i] = e.specs[j]
	}
	e.specs = shuffledSpecs
	}

	func (e *Specs) ApplyFocus(description string, focusString string, skipString string) {
	if focusString == "" && skipString == "" {
	e.applyProgrammaticFocus()
	} else {
	e.applyRegExpFocusAndSkip(description, focusString, skipString)
	}
	}

	func (e *Specs) applyProgrammaticFocus() {
	e.hasProgrammaticFocus = false
	for _, spec := range e.specs {
	if spec.Focused() && !spec.Pending() {
	e.hasProgrammaticFocus = true
	break
	}
	}

	if e.hasProgrammaticFocus {
	for _, spec := range e.specs {
	if !spec.Focused() {
	spec.Skip()
	}
	}
	}
	}

	// toMatch returns a byte[] to be used by regex matchers. When adding new behaviours to the matching function,
	// this is the place which we append to.
	func (e Specs) toMatch(description string, spec Spec) []byte {
	if e.RegexScansFilePath {
	return []byte(
	description + " " +
	spec.ConcatenatedString() + " " +
	spec.subject.CodeLocation().FileName)
	} else {
	return []byte(
	description + " " +
	spec.ConcatenatedString())
	}
	}

	func (e *Specs) applyRegExpFocusAndSkip(description string, focusString string, skipString string) {
	for _, spec := range e.specs {
	matchesFocus := true
	matchesSkip := false

	toMatch := e.toMatch(description, spec)

	if focusString != "" {
	focusFilter := regexp.MustCompile(focusString)
	matchesFocus = focusFilter.Match([]byte(toMatch))
	}

	if skipString != "" {
	skipFilter := regexp.MustCompile(skipString)
	matchesSkip = skipFilter.Match([]byte(toMatch))
	}

	if !matchesFocus \|\| matchesSkip {
	spec.Skip()
	}
	}
	}

	func (e *Specs) SkipMeasurements() {
	for _, spec := range e.specs {
	if spec.IsMeasurement() {
	spec.Skip()
	}
	}
	}

	//sort.Interface

	func (e *Specs) Len() int {
	return len(e.specs)
	}

	func (e *Specs) Less(i, j int) bool {
	return e.specs[i].ConcatenatedString() < e.specs[j].ConcatenatedString()
	}

	func (e *Specs) Swap(i, j int) {
	e.specs[i], e.specs[j] = e.specs[j], e.specs[i]
	}