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kf-codegen-v2

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kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/be_empty_matcher.go
// untested sections: 2 package matchers import ( "fmt" "github.com/onsi/gomega/format" ) type BeEmptyMatcher struct { } func (matcher *BeEmptyMatcher) Match(actual interface{}) (success bool, err error) { length, ok := lengthOf(actual) if !ok { return false, fmt.Errorf("BeEmpty matcher expects a string/array/map/channel/slice. Got:\n%s", format.Object(actual, 1)) } return length == 0, nil } func (matcher *BeEmptyMatcher) FailureMessage(actual interface{}) (message string) { return format.Message(actual, "to be empty") } func (matcher *BeEmptyMatcher) NegatedFailureMessage(actual interface{}) (message string) { return format.Message(actual, "not to be empty") }
9,100
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/be_temporally_matcher.go
// untested sections: 3 package matchers import ( "fmt" "time" "github.com/onsi/gomega/format" ) type BeTemporallyMatcher struct { Comparator string CompareTo time.Time Threshold []time.Duration } func (matcher *BeTemporallyMatcher) FailureMessage(actual interface{}) (message string) { return format.Message(actual, fmt.Sprintf("to be %s", matcher.Comparator), matcher.CompareTo) } func (matcher *BeTemporallyMatcher) NegatedFailureMessage(actual interface{}) (message string) { return format.Message(actual, fmt.Sprintf("not to be %s", matcher.Comparator), matcher.CompareTo) } func (matcher *BeTemporallyMatcher) Match(actual interface{}) (bool, error) { // predicate to test for time.Time type isTime := func(t interface{}) bool { _, ok := t.(time.Time) return ok } if !isTime(actual) { return false, fmt.Errorf("Expected a time.Time. Got:\n%s", format.Object(actual, 1)) } switch matcher.Comparator { case "==", "~", ">", ">=", "<", "<=": default: return false, fmt.Errorf("Unknown comparator: %s", matcher.Comparator) } var threshold = time.Millisecond if len(matcher.Threshold) == 1 { threshold = matcher.Threshold[0] } return matcher.matchTimes(actual.(time.Time), matcher.CompareTo, threshold), nil } func (matcher *BeTemporallyMatcher) matchTimes(actual, compareTo time.Time, threshold time.Duration) (success bool) { switch matcher.Comparator { case "==": return actual.Equal(compareTo) case "~": diff := actual.Sub(compareTo) return -threshold <= diff && diff <= threshold case ">": return actual.After(compareTo) case ">=": return !actual.Before(compareTo) case "<": return actual.Before(compareTo) case "<=": return !actual.After(compareTo) } return false }
9,101
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/contain_elements_matcher.go
package matchers import ( "fmt" "github.com/onsi/gomega/format" "github.com/onsi/gomega/matchers/support/goraph/bipartitegraph" ) type ContainElementsMatcher struct { Elements []interface{} missingElements []interface{} } func (matcher *ContainElementsMatcher) Match(actual interface{}) (success bool, err error) { if !isArrayOrSlice(actual) && !isMap(actual) { return false, fmt.Errorf("ContainElements matcher expects an array/slice/map. Got:\n%s", format.Object(actual, 1)) } matchers := matchers(matcher.Elements) bipartiteGraph, err := bipartitegraph.NewBipartiteGraph(valuesOf(actual), matchers, neighbours) if err != nil { return false, err } edges := bipartiteGraph.LargestMatching() if len(edges) == len(matchers) { return true, nil } _, missingMatchers := bipartiteGraph.FreeLeftRight(edges) matcher.missingElements = equalMatchersToElements(missingMatchers) return false, nil } func (matcher *ContainElementsMatcher) FailureMessage(actual interface{}) (message string) { message = format.Message(actual, "to contain elements", presentable(matcher.Elements)) return appendMissingElements(message, matcher.missingElements) } func (matcher *ContainElementsMatcher) NegatedFailureMessage(actual interface{}) (message string) { return format.Message(actual, "not to contain elements", presentable(matcher.Elements)) }
9,102
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/be_a_regular_file.go
// untested sections: 5 package matchers import ( "fmt" "os" "github.com/onsi/gomega/format" ) type notARegularFileError struct { os.FileInfo } func (t notARegularFileError) Error() string { fileInfo := os.FileInfo(t) switch { case fileInfo.IsDir(): return "file is a directory" default: return fmt.Sprintf("file mode is: %s", fileInfo.Mode().String()) } } type BeARegularFileMatcher struct { expected interface{} err error } func (matcher *BeARegularFileMatcher) Match(actual interface{}) (success bool, err error) { actualFilename, ok := actual.(string) if !ok { return false, fmt.Errorf("BeARegularFileMatcher matcher expects a file path") } fileInfo, err := os.Stat(actualFilename) if err != nil { matcher.err = err return false, nil } if !fileInfo.Mode().IsRegular() { matcher.err = notARegularFileError{fileInfo} return false, nil } return true, nil } func (matcher *BeARegularFileMatcher) FailureMessage(actual interface{}) (message string) { return format.Message(actual, fmt.Sprintf("to be a regular file: %s", matcher.err)) } func (matcher *BeARegularFileMatcher) NegatedFailureMessage(actual interface{}) (message string) { return format.Message(actual, fmt.Sprintf("not be a regular file")) }
9,103
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/have_cap_matcher.go
// untested sections: 2 package matchers import ( "fmt" "github.com/onsi/gomega/format" ) type HaveCapMatcher struct { Count int } func (matcher *HaveCapMatcher) Match(actual interface{}) (success bool, err error) { length, ok := capOf(actual) if !ok { return false, fmt.Errorf("HaveCap matcher expects a array/channel/slice. Got:\n%s", format.Object(actual, 1)) } return length == matcher.Count, nil } func (matcher *HaveCapMatcher) FailureMessage(actual interface{}) (message string) { return fmt.Sprintf("Expected\n%s\nto have capacity %d", format.Object(actual, 1), matcher.Count) } func (matcher *HaveCapMatcher) NegatedFailureMessage(actual interface{}) (message string) { return fmt.Sprintf("Expected\n%s\nnot to have capacity %d", format.Object(actual, 1), matcher.Count) }
9,104
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/succeed_matcher.go
package matchers import ( "fmt" "github.com/onsi/gomega/format" ) type SucceedMatcher struct { } func (matcher *SucceedMatcher) Match(actual interface{}) (success bool, err error) { // is purely nil? if actual == nil { return true, nil } // must be an 'error' type if !isError(actual) { return false, fmt.Errorf("Expected an error-type. Got:\n%s", format.Object(actual, 1)) } // must be nil (or a pointer to a nil) return isNil(actual), nil } func (matcher *SucceedMatcher) FailureMessage(actual interface{}) (message string) { return fmt.Sprintf("Expected success, but got an error:\n%s\n%s", format.Object(actual, 1), format.IndentString(actual.(error).Error(), 1)) } func (matcher *SucceedMatcher) NegatedFailureMessage(actual interface{}) (message string) { return "Expected failure, but got no error." }
9,105
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/be_element_of_matcher.go
// untested sections: 1 package matchers import ( "fmt" "reflect" "github.com/onsi/gomega/format" ) type BeElementOfMatcher struct { Elements []interface{} } func (matcher *BeElementOfMatcher) Match(actual interface{}) (success bool, err error) { if reflect.TypeOf(actual) == nil { return false, fmt.Errorf("BeElement matcher expects actual to be typed") } var lastError error for _, m := range flatten(matcher.Elements) { matcher := &EqualMatcher{Expected: m} success, err := matcher.Match(actual) if err != nil { lastError = err continue } if success { return true, nil } } return false, lastError } func (matcher *BeElementOfMatcher) FailureMessage(actual interface{}) (message string) { return format.Message(actual, "to be an element of", presentable(matcher.Elements)) } func (matcher *BeElementOfMatcher) NegatedFailureMessage(actual interface{}) (message string) { return format.Message(actual, "not to be an element of", presentable(matcher.Elements)) }
9,106
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/be_true_matcher.go
// untested sections: 2 package matchers import ( "fmt" "github.com/onsi/gomega/format" ) type BeTrueMatcher struct { } func (matcher *BeTrueMatcher) Match(actual interface{}) (success bool, err error) { if !isBool(actual) { return false, fmt.Errorf("Expected a boolean. Got:\n%s", format.Object(actual, 1)) } return actual.(bool), nil } func (matcher *BeTrueMatcher) FailureMessage(actual interface{}) (message string) { return format.Message(actual, "to be true") } func (matcher *BeTrueMatcher) NegatedFailureMessage(actual interface{}) (message string) { return format.Message(actual, "not to be true") }
9,107
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/be_an_existing_file.go
// untested sections: 3 package matchers import ( "fmt" "os" "github.com/onsi/gomega/format" ) type BeAnExistingFileMatcher struct { expected interface{} } func (matcher *BeAnExistingFileMatcher) Match(actual interface{}) (success bool, err error) { actualFilename, ok := actual.(string) if !ok { return false, fmt.Errorf("BeAnExistingFileMatcher matcher expects a file path") } if _, err = os.Stat(actualFilename); err != nil { switch { case os.IsNotExist(err): return false, nil default: return false, err } } return true, nil } func (matcher *BeAnExistingFileMatcher) FailureMessage(actual interface{}) (message string) { return format.Message(actual, fmt.Sprintf("to exist")) } func (matcher *BeAnExistingFileMatcher) NegatedFailureMessage(actual interface{}) (message string) { return format.Message(actual, fmt.Sprintf("not to exist")) }
9,108
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/match_regexp_matcher.go
package matchers import ( "fmt" "regexp" "github.com/onsi/gomega/format" ) type MatchRegexpMatcher struct { Regexp string Args []interface{} } func (matcher *MatchRegexpMatcher) Match(actual interface{}) (success bool, err error) { actualString, ok := toString(actual) if !ok { return false, fmt.Errorf("RegExp matcher requires a string or stringer.\nGot:%s", format.Object(actual, 1)) } match, err := regexp.Match(matcher.regexp(), []byte(actualString)) if err != nil { return false, fmt.Errorf("RegExp match failed to compile with error:\n\t%s", err.Error()) } return match, nil } func (matcher *MatchRegexpMatcher) FailureMessage(actual interface{}) (message string) { return format.Message(actual, "to match regular expression", matcher.regexp()) } func (matcher *MatchRegexpMatcher) NegatedFailureMessage(actual interface{}) (message string) { return format.Message(actual, "not to match regular expression", matcher.regexp()) } func (matcher *MatchRegexpMatcher) regexp() string { re := matcher.Regexp if len(matcher.Args) > 0 { re = fmt.Sprintf(matcher.Regexp, matcher.Args...) } return re }
9,109
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/panic_matcher.go
package matchers import ( "fmt" "reflect" "github.com/onsi/gomega/format" ) type PanicMatcher struct { Expected interface{} object interface{} } func (matcher *PanicMatcher) Match(actual interface{}) (success bool, err error) { if actual == nil { return false, fmt.Errorf("PanicMatcher expects a non-nil actual.") } actualType := reflect.TypeOf(actual) if actualType.Kind() != reflect.Func { return false, fmt.Errorf("PanicMatcher expects a function. Got:\n%s", format.Object(actual, 1)) } if !(actualType.NumIn() == 0 && actualType.NumOut() == 0) { return false, fmt.Errorf("PanicMatcher expects a function with no arguments and no return value. Got:\n%s", format.Object(actual, 1)) } success = false defer func() { if e := recover(); e != nil { matcher.object = e if matcher.Expected == nil { success = true return } valueMatcher, valueIsMatcher := matcher.Expected.(omegaMatcher) if !valueIsMatcher { valueMatcher = &EqualMatcher{Expected: matcher.Expected} } success, err = valueMatcher.Match(e) if err != nil { err = fmt.Errorf("PanicMatcher's value matcher failed with:\n%s%s", format.Indent, err.Error()) } } }() reflect.ValueOf(actual).Call([]reflect.Value{}) return } func (matcher *PanicMatcher) FailureMessage(actual interface{}) (message string) { if matcher.Expected == nil { // We wanted any panic to occur, but none did. return format.Message(actual, "to panic") } if matcher.object == nil { // We wanted a panic with a specific value to occur, but none did. switch matcher.Expected.(type) { case omegaMatcher: return format.Message(actual, "to panic with a value matching", matcher.Expected) default: return format.Message(actual, "to panic with", matcher.Expected) } } // We got a panic, but the value isn't what we expected. switch matcher.Expected.(type) { case omegaMatcher: return format.Message( actual, fmt.Sprintf( "to panic with a value matching\n%s\nbut panicked with\n%s", format.Object(matcher.Expected, 1), format.Object(matcher.object, 1), ), ) default: return format.Message( actual, fmt.Sprintf( "to panic with\n%s\nbut panicked with\n%s", format.Object(matcher.Expected, 1), format.Object(matcher.object, 1), ), ) } } func (matcher *PanicMatcher) NegatedFailureMessage(actual interface{}) (message string) { if matcher.Expected == nil { // We didn't want any panic to occur, but one did. return format.Message(actual, fmt.Sprintf("not to panic, but panicked with\n%s", format.Object(matcher.object, 1))) } // We wanted a to ensure a panic with a specific value did not occur, but it did. switch matcher.Expected.(type) { case omegaMatcher: return format.Message( actual, fmt.Sprintf( "not to panic with a value matching\n%s\nbut panicked with\n%s", format.Object(matcher.Expected, 1), format.Object(matcher.object, 1), ), ) default: return format.Message(actual, "not to panic with", matcher.Expected) } }
9,110
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/match_yaml_matcher.go
package matchers import ( "fmt" "strings" "github.com/onsi/gomega/format" "gopkg.in/yaml.v2" ) type MatchYAMLMatcher struct { YAMLToMatch interface{} firstFailurePath []interface{} } func (matcher *MatchYAMLMatcher) Match(actual interface{}) (success bool, err error) { actualString, expectedString, err := matcher.toStrings(actual) if err != nil { return false, err } var aval interface{} var eval interface{} if err := yaml.Unmarshal([]byte(actualString), &aval); err != nil { return false, fmt.Errorf("Actual '%s' should be valid YAML, but it is not.\nUnderlying error:%s", actualString, err) } if err := yaml.Unmarshal([]byte(expectedString), &eval); err != nil { return false, fmt.Errorf("Expected '%s' should be valid YAML, but it is not.\nUnderlying error:%s", expectedString, err) } var equal bool equal, matcher.firstFailurePath = deepEqual(aval, eval) return equal, nil } func (matcher *MatchYAMLMatcher) FailureMessage(actual interface{}) (message string) { actualString, expectedString, _ := matcher.toNormalisedStrings(actual) return formattedMessage(format.Message(actualString, "to match YAML of", expectedString), matcher.firstFailurePath) } func (matcher *MatchYAMLMatcher) NegatedFailureMessage(actual interface{}) (message string) { actualString, expectedString, _ := matcher.toNormalisedStrings(actual) return formattedMessage(format.Message(actualString, "not to match YAML of", expectedString), matcher.firstFailurePath) } func (matcher *MatchYAMLMatcher) toNormalisedStrings(actual interface{}) (actualFormatted, expectedFormatted string, err error) { actualString, expectedString, err := matcher.toStrings(actual) return normalise(actualString), normalise(expectedString), err } func normalise(input string) string { var val interface{} err := yaml.Unmarshal([]byte(input), &val) if err != nil { panic(err) // unreachable since Match already calls Unmarshal } output, err := yaml.Marshal(val) if err != nil { panic(err) // untested section, unreachable since we Unmarshal above } return strings.TrimSpace(string(output)) } func (matcher *MatchYAMLMatcher) toStrings(actual interface{}) (actualFormatted, expectedFormatted string, err error) { actualString, ok := toString(actual) if !ok { return "", "", fmt.Errorf("MatchYAMLMatcher matcher requires a string, stringer, or []byte. Got actual:\n%s", format.Object(actual, 1)) } expectedString, ok := toString(matcher.YAMLToMatch) if !ok { return "", "", fmt.Errorf("MatchYAMLMatcher matcher requires a string, stringer, or []byte. Got expected:\n%s", format.Object(matcher.YAMLToMatch, 1)) } return actualString, expectedString, nil }
9,111
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/equal_matcher.go
package matchers import ( "bytes" "fmt" "reflect" "github.com/onsi/gomega/format" ) type EqualMatcher struct { Expected interface{} } func (matcher *EqualMatcher) Match(actual interface{}) (success bool, err error) { if actual == nil && matcher.Expected == nil { return false, fmt.Errorf("Refusing to compare <nil> to <nil>.\nBe explicit and use BeNil() instead. This is to avoid mistakes where both sides of an assertion are erroneously uninitialized.") } // Shortcut for byte slices. // Comparing long byte slices with reflect.DeepEqual is very slow, // so use bytes.Equal if actual and expected are both byte slices. if actualByteSlice, ok := actual.([]byte); ok { if expectedByteSlice, ok := matcher.Expected.([]byte); ok { return bytes.Equal(actualByteSlice, expectedByteSlice), nil } } return reflect.DeepEqual(actual, matcher.Expected), nil } func (matcher *EqualMatcher) FailureMessage(actual interface{}) (message string) { actualString, actualOK := actual.(string) expectedString, expectedOK := matcher.Expected.(string) if actualOK && expectedOK { return format.MessageWithDiff(actualString, "to equal", expectedString) } return format.Message(actual, "to equal", matcher.Expected) } func (matcher *EqualMatcher) NegatedFailureMessage(actual interface{}) (message string) { return format.Message(actual, "not to equal", matcher.Expected) }
9,112
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/and.go
package matchers import ( "fmt" "github.com/onsi/gomega/format" "github.com/onsi/gomega/internal/oraclematcher" "github.com/onsi/gomega/types" ) type AndMatcher struct { Matchers []types.GomegaMatcher // state firstFailedMatcher types.GomegaMatcher } func (m *AndMatcher) Match(actual interface{}) (success bool, err error) { m.firstFailedMatcher = nil for _, matcher := range m.Matchers { success, err := matcher.Match(actual) if !success || err != nil { m.firstFailedMatcher = matcher return false, err } } return true, nil } func (m *AndMatcher) FailureMessage(actual interface{}) (message string) { return m.firstFailedMatcher.FailureMessage(actual) } func (m *AndMatcher) NegatedFailureMessage(actual interface{}) (message string) { // not the most beautiful list of matchers, but not bad either... return format.Message(actual, fmt.Sprintf("To not satisfy all of these matchers: %s", m.Matchers)) } func (m *AndMatcher) MatchMayChangeInTheFuture(actual interface{}) bool { /* Example with 3 matchers: A, B, C Match evaluates them: T, F, <?> => F So match is currently F, what should MatchMayChangeInTheFuture() return? Seems like it only depends on B, since currently B MUST change to allow the result to become T Match eval: T, T, T => T So match is currently T, what should MatchMayChangeInTheFuture() return? Seems to depend on ANY of them being able to change to F. */ if m.firstFailedMatcher == nil { // so all matchers succeeded.. Any one of them changing would change the result. for _, matcher := range m.Matchers { if oraclematcher.MatchMayChangeInTheFuture(matcher, actual) { return true } } return false // none of were going to change } // one of the matchers failed.. it must be able to change in order to affect the result return oraclematcher.MatchMayChangeInTheFuture(m.firstFailedMatcher, actual) }
9,113
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/semi_structured_data_support.go
// untested sections: 5 package matchers import ( "fmt" "reflect" "strings" ) func formattedMessage(comparisonMessage string, failurePath []interface{}) string { var diffMessage string if len(failurePath) == 0 { diffMessage = "" } else { diffMessage = fmt.Sprintf("\n\nfirst mismatched key: %s", formattedFailurePath(failurePath)) } return fmt.Sprintf("%s%s", comparisonMessage, diffMessage) } func formattedFailurePath(failurePath []interface{}) string { formattedPaths := []string{} for i := len(failurePath) - 1; i >= 0; i-- { switch p := failurePath[i].(type) { case int: formattedPaths = append(formattedPaths, fmt.Sprintf(`[%d]`, p)) default: if i != len(failurePath)-1 { formattedPaths = append(formattedPaths, ".") } formattedPaths = append(formattedPaths, fmt.Sprintf(`"%s"`, p)) } } return strings.Join(formattedPaths, "") } func deepEqual(a interface{}, b interface{}) (bool, []interface{}) { var errorPath []interface{} if reflect.TypeOf(a) != reflect.TypeOf(b) { return false, errorPath } switch a.(type) { case []interface{}: if len(a.([]interface{})) != len(b.([]interface{})) { return false, errorPath } for i, v := range a.([]interface{}) { elementEqual, keyPath := deepEqual(v, b.([]interface{})[i]) if !elementEqual { return false, append(keyPath, i) } } return true, errorPath case map[interface{}]interface{}: if len(a.(map[interface{}]interface{})) != len(b.(map[interface{}]interface{})) { return false, errorPath } for k, v1 := range a.(map[interface{}]interface{}) { v2, ok := b.(map[interface{}]interface{})[k] if !ok { return false, errorPath } elementEqual, keyPath := deepEqual(v1, v2) if !elementEqual { return false, append(keyPath, k) } } return true, errorPath case map[string]interface{}: if len(a.(map[string]interface{})) != len(b.(map[string]interface{})) { return false, errorPath } for k, v1 := range a.(map[string]interface{}) { v2, ok := b.(map[string]interface{})[k] if !ok { return false, errorPath } elementEqual, keyPath := deepEqual(v1, v2) if !elementEqual { return false, append(keyPath, k) } } return true, errorPath default: return a == b, errorPath } }
9,114
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/or.go
package matchers import ( "fmt" "github.com/onsi/gomega/format" "github.com/onsi/gomega/internal/oraclematcher" "github.com/onsi/gomega/types" ) type OrMatcher struct { Matchers []types.GomegaMatcher // state firstSuccessfulMatcher types.GomegaMatcher } func (m *OrMatcher) Match(actual interface{}) (success bool, err error) { m.firstSuccessfulMatcher = nil for _, matcher := range m.Matchers { success, err := matcher.Match(actual) if err != nil { return false, err } if success { m.firstSuccessfulMatcher = matcher return true, nil } } return false, nil } func (m *OrMatcher) FailureMessage(actual interface{}) (message string) { // not the most beautiful list of matchers, but not bad either... return format.Message(actual, fmt.Sprintf("To satisfy at least one of these matchers: %s", m.Matchers)) } func (m *OrMatcher) NegatedFailureMessage(actual interface{}) (message string) { return m.firstSuccessfulMatcher.NegatedFailureMessage(actual) } func (m *OrMatcher) MatchMayChangeInTheFuture(actual interface{}) bool { /* Example with 3 matchers: A, B, C Match evaluates them: F, T, <?> => T So match is currently T, what should MatchMayChangeInTheFuture() return? Seems like it only depends on B, since currently B MUST change to allow the result to become F Match eval: F, F, F => F So match is currently F, what should MatchMayChangeInTheFuture() return? Seems to depend on ANY of them being able to change to T. */ if m.firstSuccessfulMatcher != nil { // one of the matchers succeeded.. it must be able to change in order to affect the result return oraclematcher.MatchMayChangeInTheFuture(m.firstSuccessfulMatcher, actual) } else { // so all matchers failed.. Any one of them changing would change the result. for _, matcher := range m.Matchers { if oraclematcher.MatchMayChangeInTheFuture(matcher, actual) { return true } } return false // none of were going to change } }
9,115
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/have_prefix_matcher.go
package matchers import ( "fmt" "github.com/onsi/gomega/format" ) type HavePrefixMatcher struct { Prefix string Args []interface{} } func (matcher *HavePrefixMatcher) Match(actual interface{}) (success bool, err error) { actualString, ok := toString(actual) if !ok { return false, fmt.Errorf("HavePrefix matcher requires a string or stringer. Got:\n%s", format.Object(actual, 1)) } prefix := matcher.prefix() return len(actualString) >= len(prefix) && actualString[0:len(prefix)] == prefix, nil } func (matcher *HavePrefixMatcher) prefix() string { if len(matcher.Args) > 0 { return fmt.Sprintf(matcher.Prefix, matcher.Args...) } return matcher.Prefix } func (matcher *HavePrefixMatcher) FailureMessage(actual interface{}) (message string) { return format.Message(actual, "to have prefix", matcher.prefix()) } func (matcher *HavePrefixMatcher) NegatedFailureMessage(actual interface{}) (message string) { return format.Message(actual, "not to have prefix", matcher.prefix()) }
9,116
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/be_zero_matcher.go
package matchers import ( "reflect" "github.com/onsi/gomega/format" ) type BeZeroMatcher struct { } func (matcher *BeZeroMatcher) Match(actual interface{}) (success bool, err error) { if actual == nil { return true, nil } zeroValue := reflect.Zero(reflect.TypeOf(actual)).Interface() return reflect.DeepEqual(zeroValue, actual), nil } func (matcher *BeZeroMatcher) FailureMessage(actual interface{}) (message string) { return format.Message(actual, "to be zero-valued") } func (matcher *BeZeroMatcher) NegatedFailureMessage(actual interface{}) (message string) { return format.Message(actual, "not to be zero-valued") }
9,117
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/match_error_matcher.go
package matchers import ( "errors" "fmt" "reflect" "github.com/onsi/gomega/format" ) type MatchErrorMatcher struct { Expected interface{} } func (matcher *MatchErrorMatcher) Match(actual interface{}) (success bool, err error) { if isNil(actual) { return false, fmt.Errorf("Expected an error, got nil") } if !isError(actual) { return false, fmt.Errorf("Expected an error. Got:\n%s", format.Object(actual, 1)) } actualErr := actual.(error) expected := matcher.Expected if isError(expected) { return reflect.DeepEqual(actualErr, expected) || errors.Is(actualErr, expected.(error)), nil } if isString(expected) { return actualErr.Error() == expected, nil } var subMatcher omegaMatcher var hasSubMatcher bool if expected != nil { subMatcher, hasSubMatcher = (expected).(omegaMatcher) if hasSubMatcher { return subMatcher.Match(actualErr.Error()) } } return false, fmt.Errorf( "MatchError must be passed an error, a string, or a Matcher that can match on strings. Got:\n%s", format.Object(expected, 1)) } func (matcher *MatchErrorMatcher) FailureMessage(actual interface{}) (message string) { return format.Message(actual, "to match error", matcher.Expected) } func (matcher *MatchErrorMatcher) NegatedFailureMessage(actual interface{}) (message string) { return format.Message(actual, "not to match error", matcher.Expected) }
9,118
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/assignable_to_type_of_matcher.go
// untested sections: 2 package matchers import ( "fmt" "reflect" "github.com/onsi/gomega/format" ) type AssignableToTypeOfMatcher struct { Expected interface{} } func (matcher *AssignableToTypeOfMatcher) Match(actual interface{}) (success bool, err error) { if actual == nil && matcher.Expected == nil { return false, fmt.Errorf("Refusing to compare <nil> to <nil>.\nBe explicit and use BeNil() instead. This is to avoid mistakes where both sides of an assertion are erroneously uninitialized.") } else if matcher.Expected == nil { return false, fmt.Errorf("Refusing to compare type to <nil>.\nBe explicit and use BeNil() instead. This is to avoid mistakes where both sides of an assertion are erroneously uninitialized.") } else if actual == nil { return false, nil } actualType := reflect.TypeOf(actual) expectedType := reflect.TypeOf(matcher.Expected) return actualType.AssignableTo(expectedType), nil } func (matcher *AssignableToTypeOfMatcher) FailureMessage(actual interface{}) string { return format.Message(actual, fmt.Sprintf("to be assignable to the type: %T", matcher.Expected)) } func (matcher *AssignableToTypeOfMatcher) NegatedFailureMessage(actual interface{}) string { return format.Message(actual, fmt.Sprintf("not to be assignable to the type: %T", matcher.Expected)) }
9,119
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/be_a_directory.go
// untested sections: 5 package matchers import ( "fmt" "os" "github.com/onsi/gomega/format" ) type notADirectoryError struct { os.FileInfo } func (t notADirectoryError) Error() string { fileInfo := os.FileInfo(t) switch { case fileInfo.Mode().IsRegular(): return "file is a regular file" default: return fmt.Sprintf("file mode is: %s", fileInfo.Mode().String()) } } type BeADirectoryMatcher struct { expected interface{} err error } func (matcher *BeADirectoryMatcher) Match(actual interface{}) (success bool, err error) { actualFilename, ok := actual.(string) if !ok { return false, fmt.Errorf("BeADirectoryMatcher matcher expects a file path") } fileInfo, err := os.Stat(actualFilename) if err != nil { matcher.err = err return false, nil } if !fileInfo.Mode().IsDir() { matcher.err = notADirectoryError{fileInfo} return false, nil } return true, nil } func (matcher *BeADirectoryMatcher) FailureMessage(actual interface{}) (message string) { return format.Message(actual, fmt.Sprintf("to be a directory: %s", matcher.err)) } func (matcher *BeADirectoryMatcher) NegatedFailureMessage(actual interface{}) (message string) { return format.Message(actual, fmt.Sprintf("not be a directory")) }
9,120
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/with_transform.go
package matchers import ( "fmt" "reflect" "github.com/onsi/gomega/internal/oraclematcher" "github.com/onsi/gomega/types" ) type WithTransformMatcher struct { // input Transform interface{} // must be a function of one parameter that returns one value Matcher types.GomegaMatcher // cached value transformArgType reflect.Type // state transformedValue interface{} } func NewWithTransformMatcher(transform interface{}, matcher types.GomegaMatcher) *WithTransformMatcher { if transform == nil { panic("transform function cannot be nil") } txType := reflect.TypeOf(transform) if txType.NumIn() != 1 { panic("transform function must have 1 argument") } if txType.NumOut() != 1 { panic("transform function must have 1 return value") } return &WithTransformMatcher{ Transform: transform, Matcher: matcher, transformArgType: reflect.TypeOf(transform).In(0), } } func (m *WithTransformMatcher) Match(actual interface{}) (bool, error) { // prepare a parameter to pass to the Transform function var param reflect.Value if actual != nil && reflect.TypeOf(actual).AssignableTo(m.transformArgType) { // The dynamic type of actual is compatible with the transform argument. param = reflect.ValueOf(actual) } else if actual == nil && m.transformArgType.Kind() == reflect.Interface { // The dynamic type of actual is unknown, so there's no way to make its // reflect.Value. Create a nil of the transform argument, which is known. param = reflect.Zero(m.transformArgType) } else { return false, fmt.Errorf("Transform function expects '%s' but we have '%T'", m.transformArgType, actual) } // call the Transform function with `actual` fn := reflect.ValueOf(m.Transform) result := fn.Call([]reflect.Value{param}) m.transformedValue = result[0].Interface() // expect exactly one value return m.Matcher.Match(m.transformedValue) } func (m *WithTransformMatcher) FailureMessage(_ interface{}) (message string) { return m.Matcher.FailureMessage(m.transformedValue) } func (m *WithTransformMatcher) NegatedFailureMessage(_ interface{}) (message string) { return m.Matcher.NegatedFailureMessage(m.transformedValue) } func (m *WithTransformMatcher) MatchMayChangeInTheFuture(_ interface{}) bool { // TODO: Maybe this should always just return true? (Only an issue for non-deterministic transformers.) // // Querying the next matcher is fine if the transformer always will return the same value. // But if the transformer is non-deterministic and returns a different value each time, then there // is no point in querying the next matcher, since it can only comment on the last transformed value. return oraclematcher.MatchMayChangeInTheFuture(m.Matcher, m.transformedValue) }
9,121
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/match_xml_matcher.go
package matchers import ( "bytes" "encoding/xml" "errors" "fmt" "io" "reflect" "sort" "strings" "github.com/onsi/gomega/format" "golang.org/x/net/html/charset" ) type MatchXMLMatcher struct { XMLToMatch interface{} } func (matcher *MatchXMLMatcher) Match(actual interface{}) (success bool, err error) { actualString, expectedString, err := matcher.formattedPrint(actual) if err != nil { return false, err } aval, err := parseXmlContent(actualString) if err != nil { return false, fmt.Errorf("Actual '%s' should be valid XML, but it is not.\nUnderlying error:%s", actualString, err) } eval, err := parseXmlContent(expectedString) if err != nil { return false, fmt.Errorf("Expected '%s' should be valid XML, but it is not.\nUnderlying error:%s", expectedString, err) } return reflect.DeepEqual(aval, eval), nil } func (matcher *MatchXMLMatcher) FailureMessage(actual interface{}) (message string) { actualString, expectedString, _ := matcher.formattedPrint(actual) return fmt.Sprintf("Expected\n%s\nto match XML of\n%s", actualString, expectedString) } func (matcher *MatchXMLMatcher) NegatedFailureMessage(actual interface{}) (message string) { actualString, expectedString, _ := matcher.formattedPrint(actual) return fmt.Sprintf("Expected\n%s\nnot to match XML of\n%s", actualString, expectedString) } func (matcher *MatchXMLMatcher) formattedPrint(actual interface{}) (actualString, expectedString string, err error) { var ok bool actualString, ok = toString(actual) if !ok { return "", "", fmt.Errorf("MatchXMLMatcher matcher requires a string, stringer, or []byte. Got actual:\n%s", format.Object(actual, 1)) } expectedString, ok = toString(matcher.XMLToMatch) if !ok { return "", "", fmt.Errorf("MatchXMLMatcher matcher requires a string, stringer, or []byte. Got expected:\n%s", format.Object(matcher.XMLToMatch, 1)) } return actualString, expectedString, nil } func parseXmlContent(content string) (*xmlNode, error) { allNodes := []*xmlNode{} dec := newXmlDecoder(strings.NewReader(content)) for { tok, err := dec.Token() if err != nil { if err == io.EOF { break } return nil, fmt.Errorf("failed to decode next token: %v", err) // untested section } lastNodeIndex := len(allNodes) - 1 var lastNode *xmlNode if len(allNodes) > 0 { lastNode = allNodes[lastNodeIndex] } else { lastNode = &xmlNode{} } switch tok := tok.(type) { case xml.StartElement: attrs := attributesSlice(tok.Attr) sort.Sort(attrs) allNodes = append(allNodes, &xmlNode{XMLName: tok.Name, XMLAttr: tok.Attr}) case xml.EndElement: if len(allNodes) > 1 { allNodes[lastNodeIndex-1].Nodes = append(allNodes[lastNodeIndex-1].Nodes, lastNode) allNodes = allNodes[:lastNodeIndex] } case xml.CharData: lastNode.Content = append(lastNode.Content, tok.Copy()...) case xml.Comment: lastNode.Comments = append(lastNode.Comments, tok.Copy()) // untested section case xml.ProcInst: lastNode.ProcInsts = append(lastNode.ProcInsts, tok.Copy()) } } if len(allNodes) == 0 { return nil, errors.New("found no nodes") } firstNode := allNodes[0] trimParentNodesContentSpaces(firstNode) return firstNode, nil } func newXmlDecoder(reader io.Reader) *xml.Decoder { dec := xml.NewDecoder(reader) dec.CharsetReader = charset.NewReaderLabel return dec } func trimParentNodesContentSpaces(node *xmlNode) { if len(node.Nodes) > 0 { node.Content = bytes.TrimSpace(node.Content) for _, childNode := range node.Nodes { trimParentNodesContentSpaces(childNode) } } } type xmlNode struct { XMLName xml.Name Comments []xml.Comment ProcInsts []xml.ProcInst XMLAttr []xml.Attr Content []byte Nodes []*xmlNode }
9,122
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/be_numerically_matcher.go
// untested sections: 4 package matchers import ( "fmt" "math" "github.com/onsi/gomega/format" ) type BeNumericallyMatcher struct { Comparator string CompareTo []interface{} } func (matcher *BeNumericallyMatcher) FailureMessage(actual interface{}) (message string) { return matcher.FormatFailureMessage(actual, false) } func (matcher *BeNumericallyMatcher) NegatedFailureMessage(actual interface{}) (message string) { return matcher.FormatFailureMessage(actual, true) } func (matcher *BeNumericallyMatcher) FormatFailureMessage(actual interface{}, negated bool) (message string) { if len(matcher.CompareTo) == 1 { message = fmt.Sprintf("to be %s", matcher.Comparator) } else { message = fmt.Sprintf("to be within %v of %s", matcher.CompareTo[1], matcher.Comparator) } if negated { message = "not " + message } return format.Message(actual, message, matcher.CompareTo[0]) } func (matcher *BeNumericallyMatcher) Match(actual interface{}) (success bool, err error) { if len(matcher.CompareTo) == 0 || len(matcher.CompareTo) > 2 { return false, fmt.Errorf("BeNumerically requires 1 or 2 CompareTo arguments. Got:\n%s", format.Object(matcher.CompareTo, 1)) } if !isNumber(actual) { return false, fmt.Errorf("Expected a number. Got:\n%s", format.Object(actual, 1)) } if !isNumber(matcher.CompareTo[0]) { return false, fmt.Errorf("Expected a number. Got:\n%s", format.Object(matcher.CompareTo[0], 1)) } if len(matcher.CompareTo) == 2 && !isNumber(matcher.CompareTo[1]) { return false, fmt.Errorf("Expected a number. Got:\n%s", format.Object(matcher.CompareTo[0], 1)) } switch matcher.Comparator { case "==", "~", ">", ">=", "<", "<=": default: return false, fmt.Errorf("Unknown comparator: %s", matcher.Comparator) } if isFloat(actual) || isFloat(matcher.CompareTo[0]) { var secondOperand float64 = 1e-8 if len(matcher.CompareTo) == 2 { secondOperand = toFloat(matcher.CompareTo[1]) } success = matcher.matchFloats(toFloat(actual), toFloat(matcher.CompareTo[0]), secondOperand) } else if isInteger(actual) { var secondOperand int64 = 0 if len(matcher.CompareTo) == 2 { secondOperand = toInteger(matcher.CompareTo[1]) } success = matcher.matchIntegers(toInteger(actual), toInteger(matcher.CompareTo[0]), secondOperand) } else if isUnsignedInteger(actual) { var secondOperand uint64 = 0 if len(matcher.CompareTo) == 2 { secondOperand = toUnsignedInteger(matcher.CompareTo[1]) } success = matcher.matchUnsignedIntegers(toUnsignedInteger(actual), toUnsignedInteger(matcher.CompareTo[0]), secondOperand) } else { return false, fmt.Errorf("Failed to compare:\n%s\n%s:\n%s", format.Object(actual, 1), matcher.Comparator, format.Object(matcher.CompareTo[0], 1)) } return success, nil } func (matcher *BeNumericallyMatcher) matchIntegers(actual, compareTo, threshold int64) (success bool) { switch matcher.Comparator { case "==", "~": diff := actual - compareTo return -threshold <= diff && diff <= threshold case ">": return (actual > compareTo) case ">=": return (actual >= compareTo) case "<": return (actual < compareTo) case "<=": return (actual <= compareTo) } return false } func (matcher *BeNumericallyMatcher) matchUnsignedIntegers(actual, compareTo, threshold uint64) (success bool) { switch matcher.Comparator { case "==", "~": if actual < compareTo { actual, compareTo = compareTo, actual } return actual-compareTo <= threshold case ">": return (actual > compareTo) case ">=": return (actual >= compareTo) case "<": return (actual < compareTo) case "<=": return (actual <= compareTo) } return false } func (matcher *BeNumericallyMatcher) matchFloats(actual, compareTo, threshold float64) (success bool) { switch matcher.Comparator { case "~": return math.Abs(actual-compareTo) <= threshold case "==": return (actual == compareTo) case ">": return (actual > compareTo) case ">=": return (actual >= compareTo) case "<": return (actual < compareTo) case "<=": return (actual <= compareTo) } return false }
9,123
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/have_key_matcher.go
// untested sections: 6 package matchers import ( "fmt" "reflect" "github.com/onsi/gomega/format" ) type HaveKeyMatcher struct { Key interface{} } func (matcher *HaveKeyMatcher) Match(actual interface{}) (success bool, err error) { if !isMap(actual) { return false, fmt.Errorf("HaveKey matcher expects a map. Got:%s", format.Object(actual, 1)) } keyMatcher, keyIsMatcher := matcher.Key.(omegaMatcher) if !keyIsMatcher { keyMatcher = &EqualMatcher{Expected: matcher.Key} } keys := reflect.ValueOf(actual).MapKeys() for i := 0; i < len(keys); i++ { success, err := keyMatcher.Match(keys[i].Interface()) if err != nil { return false, fmt.Errorf("HaveKey's key matcher failed with:\n%s%s", format.Indent, err.Error()) } if success { return true, nil } } return false, nil } func (matcher *HaveKeyMatcher) FailureMessage(actual interface{}) (message string) { switch matcher.Key.(type) { case omegaMatcher: return format.Message(actual, "to have key matching", matcher.Key) default: return format.Message(actual, "to have key", matcher.Key) } } func (matcher *HaveKeyMatcher) NegatedFailureMessage(actual interface{}) (message string) { switch matcher.Key.(type) { case omegaMatcher: return format.Message(actual, "not to have key matching", matcher.Key) default: return format.Message(actual, "not to have key", matcher.Key) } }
9,124
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/have_key_with_value_matcher.go
// untested sections:10 package matchers import ( "fmt" "reflect" "github.com/onsi/gomega/format" ) type HaveKeyWithValueMatcher struct { Key interface{} Value interface{} } func (matcher *HaveKeyWithValueMatcher) Match(actual interface{}) (success bool, err error) { if !isMap(actual) { return false, fmt.Errorf("HaveKeyWithValue matcher expects a map. Got:%s", format.Object(actual, 1)) } keyMatcher, keyIsMatcher := matcher.Key.(omegaMatcher) if !keyIsMatcher { keyMatcher = &EqualMatcher{Expected: matcher.Key} } valueMatcher, valueIsMatcher := matcher.Value.(omegaMatcher) if !valueIsMatcher { valueMatcher = &EqualMatcher{Expected: matcher.Value} } keys := reflect.ValueOf(actual).MapKeys() for i := 0; i < len(keys); i++ { success, err := keyMatcher.Match(keys[i].Interface()) if err != nil { return false, fmt.Errorf("HaveKeyWithValue's key matcher failed with:\n%s%s", format.Indent, err.Error()) } if success { actualValue := reflect.ValueOf(actual).MapIndex(keys[i]) success, err := valueMatcher.Match(actualValue.Interface()) if err != nil { return false, fmt.Errorf("HaveKeyWithValue's value matcher failed with:\n%s%s", format.Indent, err.Error()) } return success, nil } } return false, nil } func (matcher *HaveKeyWithValueMatcher) FailureMessage(actual interface{}) (message string) { str := "to have {key: value}" if _, ok := matcher.Key.(omegaMatcher); ok { str += " matching" } else if _, ok := matcher.Value.(omegaMatcher); ok { str += " matching" } expect := make(map[interface{}]interface{}, 1) expect[matcher.Key] = matcher.Value return format.Message(actual, str, expect) } func (matcher *HaveKeyWithValueMatcher) NegatedFailureMessage(actual interface{}) (message string) { kStr := "not to have key" if _, ok := matcher.Key.(omegaMatcher); ok { kStr = "not to have key matching" } vStr := "or that key's value not be" if _, ok := matcher.Value.(omegaMatcher); ok { vStr = "or to have that key's value not matching" } return format.Message(actual, kStr, matcher.Key, vStr, matcher.Value) }
9,125
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/attributes_slice.go
package matchers import ( "encoding/xml" "strings" ) type attributesSlice []xml.Attr func (attrs attributesSlice) Len() int { return len(attrs) } func (attrs attributesSlice) Less(i, j int) bool { return strings.Compare(attrs[i].Name.Local, attrs[j].Name.Local) == -1 } func (attrs attributesSlice) Swap(i, j int) { attrs[i], attrs[j] = attrs[j], attrs[i] }
9,126
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/be_equivalent_to_matcher.go
// untested sections: 2 package matchers import ( "fmt" "reflect" "github.com/onsi/gomega/format" ) type BeEquivalentToMatcher struct { Expected interface{} } func (matcher *BeEquivalentToMatcher) Match(actual interface{}) (success bool, err error) { if actual == nil && matcher.Expected == nil { return false, fmt.Errorf("Both actual and expected must not be nil.") } convertedActual := actual if actual != nil && matcher.Expected != nil && reflect.TypeOf(actual).ConvertibleTo(reflect.TypeOf(matcher.Expected)) { convertedActual = reflect.ValueOf(actual).Convert(reflect.TypeOf(matcher.Expected)).Interface() } return reflect.DeepEqual(convertedActual, matcher.Expected), nil } func (matcher *BeEquivalentToMatcher) FailureMessage(actual interface{}) (message string) { return format.Message(actual, "to be equivalent to", matcher.Expected) } func (matcher *BeEquivalentToMatcher) NegatedFailureMessage(actual interface{}) (message string) { return format.Message(actual, "not to be equivalent to", matcher.Expected) }
9,127
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/be_closed_matcher.go
// untested sections: 2 package matchers import ( "fmt" "reflect" "github.com/onsi/gomega/format" ) type BeClosedMatcher struct { } func (matcher *BeClosedMatcher) Match(actual interface{}) (success bool, err error) { if !isChan(actual) { return false, fmt.Errorf("BeClosed matcher expects a channel. Got:\n%s", format.Object(actual, 1)) } channelType := reflect.TypeOf(actual) channelValue := reflect.ValueOf(actual) if channelType.ChanDir() == reflect.SendDir { return false, fmt.Errorf("BeClosed matcher cannot determine if a send-only channel is closed or open. Got:\n%s", format.Object(actual, 1)) } winnerIndex, _, open := reflect.Select([]reflect.SelectCase{ {Dir: reflect.SelectRecv, Chan: channelValue}, {Dir: reflect.SelectDefault}, }) var closed bool if winnerIndex == 0 { closed = !open } else if winnerIndex == 1 { closed = false } return closed, nil } func (matcher *BeClosedMatcher) FailureMessage(actual interface{}) (message string) { return format.Message(actual, "to be closed") } func (matcher *BeClosedMatcher) NegatedFailureMessage(actual interface{}) (message string) { return format.Message(actual, "to be open") }
9,128
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/have_len_matcher.go
package matchers import ( "fmt" "github.com/onsi/gomega/format" ) type HaveLenMatcher struct { Count int } func (matcher *HaveLenMatcher) Match(actual interface{}) (success bool, err error) { length, ok := lengthOf(actual) if !ok { return false, fmt.Errorf("HaveLen matcher expects a string/array/map/channel/slice. Got:\n%s", format.Object(actual, 1)) } return length == matcher.Count, nil } func (matcher *HaveLenMatcher) FailureMessage(actual interface{}) (message string) { return fmt.Sprintf("Expected\n%s\nto have length %d", format.Object(actual, 1), matcher.Count) } func (matcher *HaveLenMatcher) NegatedFailureMessage(actual interface{}) (message string) { return fmt.Sprintf("Expected\n%s\nnot to have length %d", format.Object(actual, 1), matcher.Count) }
9,129
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/match_json_matcher.go
package matchers import ( "bytes" "encoding/json" "fmt" "github.com/onsi/gomega/format" ) type MatchJSONMatcher struct { JSONToMatch interface{} firstFailurePath []interface{} } func (matcher *MatchJSONMatcher) Match(actual interface{}) (success bool, err error) { actualString, expectedString, err := matcher.prettyPrint(actual) if err != nil { return false, err } var aval interface{} var eval interface{} // this is guarded by prettyPrint json.Unmarshal([]byte(actualString), &aval) json.Unmarshal([]byte(expectedString), &eval) var equal bool equal, matcher.firstFailurePath = deepEqual(aval, eval) return equal, nil } func (matcher *MatchJSONMatcher) FailureMessage(actual interface{}) (message string) { actualString, expectedString, _ := matcher.prettyPrint(actual) return formattedMessage(format.Message(actualString, "to match JSON of", expectedString), matcher.firstFailurePath) } func (matcher *MatchJSONMatcher) NegatedFailureMessage(actual interface{}) (message string) { actualString, expectedString, _ := matcher.prettyPrint(actual) return formattedMessage(format.Message(actualString, "not to match JSON of", expectedString), matcher.firstFailurePath) } func (matcher *MatchJSONMatcher) prettyPrint(actual interface{}) (actualFormatted, expectedFormatted string, err error) { actualString, ok := toString(actual) if !ok { return "", "", fmt.Errorf("MatchJSONMatcher matcher requires a string, stringer, or []byte. Got actual:\n%s", format.Object(actual, 1)) } expectedString, ok := toString(matcher.JSONToMatch) if !ok { return "", "", fmt.Errorf("MatchJSONMatcher matcher requires a string, stringer, or []byte. Got expected:\n%s", format.Object(matcher.JSONToMatch, 1)) } abuf := new(bytes.Buffer) ebuf := new(bytes.Buffer) if err := json.Indent(abuf, []byte(actualString), "", " "); err != nil { return "", "", fmt.Errorf("Actual '%s' should be valid JSON, but it is not.\nUnderlying error:%s", actualString, err) } if err := json.Indent(ebuf, []byte(expectedString), "", " "); err != nil { return "", "", fmt.Errorf("Expected '%s' should be valid JSON, but it is not.\nUnderlying error:%s", expectedString, err) } return abuf.String(), ebuf.String(), nil }
9,130
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/not.go
package matchers import ( "github.com/onsi/gomega/internal/oraclematcher" "github.com/onsi/gomega/types" ) type NotMatcher struct { Matcher types.GomegaMatcher } func (m *NotMatcher) Match(actual interface{}) (bool, error) { success, err := m.Matcher.Match(actual) if err != nil { return false, err } return !success, nil } func (m *NotMatcher) FailureMessage(actual interface{}) (message string) { return m.Matcher.NegatedFailureMessage(actual) // works beautifully } func (m *NotMatcher) NegatedFailureMessage(actual interface{}) (message string) { return m.Matcher.FailureMessage(actual) // works beautifully } func (m *NotMatcher) MatchMayChangeInTheFuture(actual interface{}) bool { return oraclematcher.MatchMayChangeInTheFuture(m.Matcher, actual) // just return m.Matcher's value }
9,131
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/contain_element_matcher.go
// untested sections: 2 package matchers import ( "fmt" "reflect" "github.com/onsi/gomega/format" ) type ContainElementMatcher struct { Element interface{} } func (matcher *ContainElementMatcher) Match(actual interface{}) (success bool, err error) { if !isArrayOrSlice(actual) && !isMap(actual) { return false, fmt.Errorf("ContainElement matcher expects an array/slice/map. Got:\n%s", format.Object(actual, 1)) } elemMatcher, elementIsMatcher := matcher.Element.(omegaMatcher) if !elementIsMatcher { elemMatcher = &EqualMatcher{Expected: matcher.Element} } value := reflect.ValueOf(actual) var valueAt func(int) interface{} if isMap(actual) { keys := value.MapKeys() valueAt = func(i int) interface{} { return value.MapIndex(keys[i]).Interface() } } else { valueAt = func(i int) interface{} { return value.Index(i).Interface() } } var lastError error for i := 0; i < value.Len(); i++ { success, err := elemMatcher.Match(valueAt(i)) if err != nil { lastError = err continue } if success { return true, nil } } return false, lastError } func (matcher *ContainElementMatcher) FailureMessage(actual interface{}) (message string) { return format.Message(actual, "to contain element matching", matcher.Element) } func (matcher *ContainElementMatcher) NegatedFailureMessage(actual interface{}) (message string) { return format.Message(actual, "not to contain element matching", matcher.Element) }
9,132
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/be_nil_matcher.go
// untested sections: 2 package matchers import "github.com/onsi/gomega/format" type BeNilMatcher struct { } func (matcher *BeNilMatcher) Match(actual interface{}) (success bool, err error) { return isNil(actual), nil } func (matcher *BeNilMatcher) FailureMessage(actual interface{}) (message string) { return format.Message(actual, "to be nil") } func (matcher *BeNilMatcher) NegatedFailureMessage(actual interface{}) (message string) { return format.Message(actual, "not to be nil") }
9,133
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/be_sent_matcher.go
// untested sections: 3 package matchers import ( "fmt" "reflect" "github.com/onsi/gomega/format" ) type BeSentMatcher struct { Arg interface{} channelClosed bool } func (matcher *BeSentMatcher) Match(actual interface{}) (success bool, err error) { if !isChan(actual) { return false, fmt.Errorf("BeSent expects a channel. Got:\n%s", format.Object(actual, 1)) } channelType := reflect.TypeOf(actual) channelValue := reflect.ValueOf(actual) if channelType.ChanDir() == reflect.RecvDir { return false, fmt.Errorf("BeSent matcher cannot be passed a receive-only channel. Got:\n%s", format.Object(actual, 1)) } argType := reflect.TypeOf(matcher.Arg) assignable := argType.AssignableTo(channelType.Elem()) if !assignable { return false, fmt.Errorf("Cannot pass:\n%s to the channel:\n%s\nThe types don't match.", format.Object(matcher.Arg, 1), format.Object(actual, 1)) } argValue := reflect.ValueOf(matcher.Arg) defer func() { if e := recover(); e != nil { success = false err = fmt.Errorf("Cannot send to a closed channel") matcher.channelClosed = true } }() winnerIndex, _, _ := reflect.Select([]reflect.SelectCase{ {Dir: reflect.SelectSend, Chan: channelValue, Send: argValue}, {Dir: reflect.SelectDefault}, }) var didSend bool if winnerIndex == 0 { didSend = true } return didSend, nil } func (matcher *BeSentMatcher) FailureMessage(actual interface{}) (message string) { return format.Message(actual, "to send:", matcher.Arg) } func (matcher *BeSentMatcher) NegatedFailureMessage(actual interface{}) (message string) { return format.Message(actual, "not to send:", matcher.Arg) } func (matcher *BeSentMatcher) MatchMayChangeInTheFuture(actual interface{}) bool { if !isChan(actual) { return false } return !matcher.channelClosed }
9,134
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/have_occurred_matcher.go
// untested sections: 2 package matchers import ( "fmt" "github.com/onsi/gomega/format" ) type HaveOccurredMatcher struct { } func (matcher *HaveOccurredMatcher) Match(actual interface{}) (success bool, err error) { // is purely nil? if actual == nil { return false, nil } // must be an 'error' type if !isError(actual) { return false, fmt.Errorf("Expected an error-type. Got:\n%s", format.Object(actual, 1)) } // must be non-nil (or a pointer to a non-nil) return !isNil(actual), nil } func (matcher *HaveOccurredMatcher) FailureMessage(actual interface{}) (message string) { return fmt.Sprintf("Expected an error to have occurred. Got:\n%s", format.Object(actual, 1)) } func (matcher *HaveOccurredMatcher) NegatedFailureMessage(actual interface{}) (message string) { return fmt.Sprintf("Unexpected error:\n%s\n%s\n%s", format.Object(actual, 1), format.IndentString(actual.(error).Error(), 1), "occurred") }
9,135
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/have_http_status_matcher.go
package matchers import ( "fmt" "net/http" "net/http/httptest" "github.com/onsi/gomega/format" ) type HaveHTTPStatusMatcher struct { Expected interface{} } func (matcher *HaveHTTPStatusMatcher) Match(actual interface{}) (success bool, err error) { var resp *http.Response switch a := actual.(type) { case *http.Response: resp = a case *httptest.ResponseRecorder: resp = a.Result() default: return false, fmt.Errorf("HaveHTTPStatus matcher expects *http.Response or *httptest.ResponseRecorder. Got:\n%s", format.Object(actual, 1)) } switch e := matcher.Expected.(type) { case int: return resp.StatusCode == e, nil case string: return resp.Status == e, nil } return false, fmt.Errorf("HaveHTTPStatus matcher must be passed an int or a string. Got:\n%s", format.Object(matcher.Expected, 1)) } func (matcher *HaveHTTPStatusMatcher) FailureMessage(actual interface{}) (message string) { return format.Message(actual, "to have HTTP status", matcher.Expected) } func (matcher *HaveHTTPStatusMatcher) NegatedFailureMessage(actual interface{}) (message string) { return format.Message(actual, "not to have HTTP status", matcher.Expected) }
9,136
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/receive_matcher.go
// untested sections: 3 package matchers import ( "fmt" "reflect" "github.com/onsi/gomega/format" ) type ReceiveMatcher struct { Arg interface{} receivedValue reflect.Value channelClosed bool } func (matcher *ReceiveMatcher) Match(actual interface{}) (success bool, err error) { if !isChan(actual) { return false, fmt.Errorf("ReceiveMatcher expects a channel. Got:\n%s", format.Object(actual, 1)) } channelType := reflect.TypeOf(actual) channelValue := reflect.ValueOf(actual) if channelType.ChanDir() == reflect.SendDir { return false, fmt.Errorf("ReceiveMatcher matcher cannot be passed a send-only channel. Got:\n%s", format.Object(actual, 1)) } var subMatcher omegaMatcher var hasSubMatcher bool if matcher.Arg != nil { subMatcher, hasSubMatcher = (matcher.Arg).(omegaMatcher) if !hasSubMatcher { argType := reflect.TypeOf(matcher.Arg) if argType.Kind() != reflect.Ptr { return false, fmt.Errorf("Cannot assign a value from the channel:\n%s\nTo:\n%s\nYou need to pass a pointer!", format.Object(actual, 1), format.Object(matcher.Arg, 1)) } } } winnerIndex, value, open := reflect.Select([]reflect.SelectCase{ {Dir: reflect.SelectRecv, Chan: channelValue}, {Dir: reflect.SelectDefault}, }) var closed bool var didReceive bool if winnerIndex == 0 { closed = !open didReceive = open } matcher.channelClosed = closed if closed { return false, nil } if hasSubMatcher { if didReceive { matcher.receivedValue = value return subMatcher.Match(matcher.receivedValue.Interface()) } return false, nil } if didReceive { if matcher.Arg != nil { outValue := reflect.ValueOf(matcher.Arg) if value.Type().AssignableTo(outValue.Elem().Type()) { outValue.Elem().Set(value) return true, nil } if value.Type().Kind() == reflect.Interface && value.Elem().Type().AssignableTo(outValue.Elem().Type()) { outValue.Elem().Set(value.Elem()) return true, nil } else { return false, fmt.Errorf("Cannot assign a value from the channel:\n%s\nType:\n%s\nTo:\n%s", format.Object(actual, 1), format.Object(value.Interface(), 1), format.Object(matcher.Arg, 1)) } } return true, nil } return false, nil } func (matcher *ReceiveMatcher) FailureMessage(actual interface{}) (message string) { subMatcher, hasSubMatcher := (matcher.Arg).(omegaMatcher) closedAddendum := "" if matcher.channelClosed { closedAddendum = " The channel is closed." } if hasSubMatcher { if matcher.receivedValue.IsValid() { return subMatcher.FailureMessage(matcher.receivedValue.Interface()) } return "When passed a matcher, ReceiveMatcher's channel *must* receive something." } return format.Message(actual, "to receive something."+closedAddendum) } func (matcher *ReceiveMatcher) NegatedFailureMessage(actual interface{}) (message string) { subMatcher, hasSubMatcher := (matcher.Arg).(omegaMatcher) closedAddendum := "" if matcher.channelClosed { closedAddendum = " The channel is closed." } if hasSubMatcher { if matcher.receivedValue.IsValid() { return subMatcher.NegatedFailureMessage(matcher.receivedValue.Interface()) } return "When passed a matcher, ReceiveMatcher's channel *must* receive something." } return format.Message(actual, "not to receive anything."+closedAddendum) } func (matcher *ReceiveMatcher) MatchMayChangeInTheFuture(actual interface{}) bool { if !isChan(actual) { return false } return !matcher.channelClosed }
9,137
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/have_suffix_matcher.go
package matchers import ( "fmt" "github.com/onsi/gomega/format" ) type HaveSuffixMatcher struct { Suffix string Args []interface{} } func (matcher *HaveSuffixMatcher) Match(actual interface{}) (success bool, err error) { actualString, ok := toString(actual) if !ok { return false, fmt.Errorf("HaveSuffix matcher requires a string or stringer. Got:\n%s", format.Object(actual, 1)) } suffix := matcher.suffix() return len(actualString) >= len(suffix) && actualString[len(actualString)-len(suffix):] == suffix, nil } func (matcher *HaveSuffixMatcher) suffix() string { if len(matcher.Args) > 0 { return fmt.Sprintf(matcher.Suffix, matcher.Args...) } return matcher.Suffix } func (matcher *HaveSuffixMatcher) FailureMessage(actual interface{}) (message string) { return format.Message(actual, "to have suffix", matcher.suffix()) } func (matcher *HaveSuffixMatcher) NegatedFailureMessage(actual interface{}) (message string) { return format.Message(actual, "not to have suffix", matcher.suffix()) }
9,138
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/consist_of.go
// untested sections: 3 package matchers import ( "fmt" "reflect" "github.com/onsi/gomega/format" "github.com/onsi/gomega/matchers/support/goraph/bipartitegraph" ) type ConsistOfMatcher struct { Elements []interface{} missingElements []interface{} extraElements []interface{} } func (matcher *ConsistOfMatcher) Match(actual interface{}) (success bool, err error) { if !isArrayOrSlice(actual) && !isMap(actual) { return false, fmt.Errorf("ConsistOf matcher expects an array/slice/map. Got:\n%s", format.Object(actual, 1)) } matchers := matchers(matcher.Elements) values := valuesOf(actual) bipartiteGraph, err := bipartitegraph.NewBipartiteGraph(values, matchers, neighbours) if err != nil { return false, err } edges := bipartiteGraph.LargestMatching() if len(edges) == len(values) && len(edges) == len(matchers) { return true, nil } var missingMatchers []interface{} matcher.extraElements, missingMatchers = bipartiteGraph.FreeLeftRight(edges) matcher.missingElements = equalMatchersToElements(missingMatchers) return false, nil } func neighbours(value, matcher interface{}) (bool, error) { match, err := matcher.(omegaMatcher).Match(value) return match && err == nil, nil } func equalMatchersToElements(matchers []interface{}) (elements []interface{}) { for _, matcher := range matchers { equalMatcher, ok := matcher.(*EqualMatcher) if ok { matcher = equalMatcher.Expected } elements = append(elements, matcher) } return } func flatten(elems []interface{}) []interface{} { if len(elems) != 1 || !isArrayOrSlice(elems[0]) { return elems } value := reflect.ValueOf(elems[0]) flattened := make([]interface{}, value.Len()) for i := 0; i < value.Len(); i++ { flattened[i] = value.Index(i).Interface() } return flattened } func matchers(expectedElems []interface{}) (matchers []interface{}) { for _, e := range flatten(expectedElems) { matcher, isMatcher := e.(omegaMatcher) if !isMatcher { matcher = &EqualMatcher{Expected: e} } matchers = append(matchers, matcher) } return } func presentable(elems []interface{}) interface{} { elems = flatten(elems) if len(elems) == 0 { return []interface{}{} } sv := reflect.ValueOf(elems) tt := sv.Index(0).Elem().Type() for i := 1; i < sv.Len(); i++ { if sv.Index(i).Elem().Type() != tt { return elems } } ss := reflect.MakeSlice(reflect.SliceOf(tt), sv.Len(), sv.Len()) for i := 0; i < sv.Len(); i++ { ss.Index(i).Set(sv.Index(i).Elem()) } return ss.Interface() } func valuesOf(actual interface{}) []interface{} { value := reflect.ValueOf(actual) values := []interface{}{} if isMap(actual) { keys := value.MapKeys() for i := 0; i < value.Len(); i++ { values = append(values, value.MapIndex(keys[i]).Interface()) } } else { for i := 0; i < value.Len(); i++ { values = append(values, value.Index(i).Interface()) } } return values } func (matcher *ConsistOfMatcher) FailureMessage(actual interface{}) (message string) { message = format.Message(actual, "to consist of", presentable(matcher.Elements)) message = appendMissingElements(message, matcher.missingElements) if len(matcher.extraElements) > 0 { message = fmt.Sprintf("%s\nthe extra elements were\n%s", message, format.Object(presentable(matcher.extraElements), 1)) } return } func appendMissingElements(message string, missingElements []interface{}) string { if len(missingElements) == 0 { return message } return fmt.Sprintf("%s\nthe missing elements were\n%s", message, format.Object(presentable(missingElements), 1)) } func (matcher *ConsistOfMatcher) NegatedFailureMessage(actual interface{}) (message string) { return format.Message(actual, "not to consist of", presentable(matcher.Elements)) }
9,139
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/contain_substring_matcher.go
// untested sections: 2 package matchers import ( "fmt" "strings" "github.com/onsi/gomega/format" ) type ContainSubstringMatcher struct { Substr string Args []interface{} } func (matcher *ContainSubstringMatcher) Match(actual interface{}) (success bool, err error) { actualString, ok := toString(actual) if !ok { return false, fmt.Errorf("ContainSubstring matcher requires a string or stringer. Got:\n%s", format.Object(actual, 1)) } return strings.Contains(actualString, matcher.stringToMatch()), nil } func (matcher *ContainSubstringMatcher) stringToMatch() string { stringToMatch := matcher.Substr if len(matcher.Args) > 0 { stringToMatch = fmt.Sprintf(matcher.Substr, matcher.Args...) } return stringToMatch } func (matcher *ContainSubstringMatcher) FailureMessage(actual interface{}) (message string) { return format.Message(actual, "to contain substring", matcher.stringToMatch()) } func (matcher *ContainSubstringMatcher) NegatedFailureMessage(actual interface{}) (message string) { return format.Message(actual, "not to contain substring", matcher.stringToMatch()) }
9,140
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/type_support.go
/* Gomega matchers This package implements the Gomega matchers and does not typically need to be imported. See the docs for Gomega for documentation on the matchers http://onsi.github.io/gomega/ */ // untested sections: 11 package matchers import ( "encoding/json" "fmt" "reflect" ) type omegaMatcher interface { Match(actual interface{}) (success bool, err error) FailureMessage(actual interface{}) (message string) NegatedFailureMessage(actual interface{}) (message string) } func isBool(a interface{}) bool { return reflect.TypeOf(a).Kind() == reflect.Bool } func isNumber(a interface{}) bool { if a == nil { return false } kind := reflect.TypeOf(a).Kind() return reflect.Int <= kind && kind <= reflect.Float64 } func isInteger(a interface{}) bool { kind := reflect.TypeOf(a).Kind() return reflect.Int <= kind && kind <= reflect.Int64 } func isUnsignedInteger(a interface{}) bool { kind := reflect.TypeOf(a).Kind() return reflect.Uint <= kind && kind <= reflect.Uint64 } func isFloat(a interface{}) bool { kind := reflect.TypeOf(a).Kind() return reflect.Float32 <= kind && kind <= reflect.Float64 } func toInteger(a interface{}) int64 { if isInteger(a) { return reflect.ValueOf(a).Int() } else if isUnsignedInteger(a) { return int64(reflect.ValueOf(a).Uint()) } else if isFloat(a) { return int64(reflect.ValueOf(a).Float()) } panic(fmt.Sprintf("Expected a number! Got <%T> %#v", a, a)) } func toUnsignedInteger(a interface{}) uint64 { if isInteger(a) { return uint64(reflect.ValueOf(a).Int()) } else if isUnsignedInteger(a) { return reflect.ValueOf(a).Uint() } else if isFloat(a) { return uint64(reflect.ValueOf(a).Float()) } panic(fmt.Sprintf("Expected a number! Got <%T> %#v", a, a)) } func toFloat(a interface{}) float64 { if isInteger(a) { return float64(reflect.ValueOf(a).Int()) } else if isUnsignedInteger(a) { return float64(reflect.ValueOf(a).Uint()) } else if isFloat(a) { return reflect.ValueOf(a).Float() } panic(fmt.Sprintf("Expected a number! Got <%T> %#v", a, a)) } func isError(a interface{}) bool { _, ok := a.(error) return ok } func isChan(a interface{}) bool { if isNil(a) { return false } return reflect.TypeOf(a).Kind() == reflect.Chan } func isMap(a interface{}) bool { if a == nil { return false } return reflect.TypeOf(a).Kind() == reflect.Map } func isArrayOrSlice(a interface{}) bool { if a == nil { return false } switch reflect.TypeOf(a).Kind() { case reflect.Array, reflect.Slice: return true default: return false } } func isString(a interface{}) bool { if a == nil { return false } return reflect.TypeOf(a).Kind() == reflect.String } func toString(a interface{}) (string, bool) { aString, isString := a.(string) if isString { return aString, true } aBytes, isBytes := a.([]byte) if isBytes { return string(aBytes), true } aStringer, isStringer := a.(fmt.Stringer) if isStringer { return aStringer.String(), true } aJSONRawMessage, isJSONRawMessage := a.(json.RawMessage) if isJSONRawMessage { return string(aJSONRawMessage), true } return "", false } func lengthOf(a interface{}) (int, bool) { if a == nil { return 0, false } switch reflect.TypeOf(a).Kind() { case reflect.Map, reflect.Array, reflect.String, reflect.Chan, reflect.Slice: return reflect.ValueOf(a).Len(), true default: return 0, false } } func capOf(a interface{}) (int, bool) { if a == nil { return 0, false } switch reflect.TypeOf(a).Kind() { case reflect.Array, reflect.Chan, reflect.Slice: return reflect.ValueOf(a).Cap(), true default: return 0, false } } func isNil(a interface{}) bool { if a == nil { return true } switch reflect.TypeOf(a).Kind() { case reflect.Chan, reflect.Func, reflect.Interface, reflect.Map, reflect.Ptr, reflect.Slice: return reflect.ValueOf(a).IsNil() } return false }
9,141
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/be_identical_to.go
// untested sections: 2 package matchers import ( "fmt" "runtime" "github.com/onsi/gomega/format" ) type BeIdenticalToMatcher struct { Expected interface{} } func (matcher *BeIdenticalToMatcher) Match(actual interface{}) (success bool, matchErr error) { if actual == nil && matcher.Expected == nil { return false, fmt.Errorf("Refusing to compare <nil> to <nil>.\nBe explicit and use BeNil() instead. This is to avoid mistakes where both sides of an assertion are erroneously uninitialized.") } defer func() { if r := recover(); r != nil { if _, ok := r.(runtime.Error); ok { success = false matchErr = nil } } }() return actual == matcher.Expected, nil } func (matcher *BeIdenticalToMatcher) FailureMessage(actual interface{}) string { return format.Message(actual, "to be identical to", matcher.Expected) } func (matcher *BeIdenticalToMatcher) NegatedFailureMessage(actual interface{}) string { return format.Message(actual, "not to be identical to", matcher.Expected) }
9,142
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/be_false_matcher.go
// untested sections: 2 package matchers import ( "fmt" "github.com/onsi/gomega/format" ) type BeFalseMatcher struct { } func (matcher *BeFalseMatcher) Match(actual interface{}) (success bool, err error) { if !isBool(actual) { return false, fmt.Errorf("Expected a boolean. Got:\n%s", format.Object(actual, 1)) } return actual == false, nil } func (matcher *BeFalseMatcher) FailureMessage(actual interface{}) (message string) { return format.Message(actual, "to be false") } func (matcher *BeFalseMatcher) NegatedFailureMessage(actual interface{}) (message string) { return format.Message(actual, "not to be false") }
9,143
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/support/goraph
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/support/goraph/util/util.go
package util import "math" func Odd(n int) bool { return math.Mod(float64(n), 2.0) == 1.0 }
9,144
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/support/goraph
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/support/goraph/node/node.go
package node type Node struct { ID int Value interface{} } type NodeOrderedSet []Node
9,145
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/support/goraph
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/support/goraph/bipartitegraph/bipartitegraphmatching.go
package bipartitegraph import ( . "github.com/onsi/gomega/matchers/support/goraph/edge" . "github.com/onsi/gomega/matchers/support/goraph/node" "github.com/onsi/gomega/matchers/support/goraph/util" ) // LargestMatching implements the Hopcroft–Karp algorithm taking as input a bipartite graph // and outputting a maximum cardinality matching, i.e. a set of as many edges as possible // with the property that no two edges share an endpoint. func (bg *BipartiteGraph) LargestMatching() (matching EdgeSet) { paths := bg.maximalDisjointSLAPCollection(matching) for len(paths) > 0 { for _, path := range paths { matching = matching.SymmetricDifference(path) } paths = bg.maximalDisjointSLAPCollection(matching) } return } func (bg *BipartiteGraph) maximalDisjointSLAPCollection(matching EdgeSet) (result []EdgeSet) { guideLayers := bg.createSLAPGuideLayers(matching) if len(guideLayers) == 0 { return } used := make(map[int]bool) for _, u := range guideLayers[len(guideLayers)-1] { slap, found := bg.findDisjointSLAP(u, matching, guideLayers, used) if found { for _, edge := range slap { used[edge.Node1] = true used[edge.Node2] = true } result = append(result, slap) } } return } func (bg *BipartiteGraph) findDisjointSLAP( start Node, matching EdgeSet, guideLayers []NodeOrderedSet, used map[int]bool, ) ([]Edge, bool) { return bg.findDisjointSLAPHelper(start, EdgeSet{}, len(guideLayers)-1, matching, guideLayers, used) } func (bg *BipartiteGraph) findDisjointSLAPHelper( currentNode Node, currentSLAP EdgeSet, currentLevel int, matching EdgeSet, guideLayers []NodeOrderedSet, used map[int]bool, ) (EdgeSet, bool) { used[currentNode.ID] = true if currentLevel == 0 { return currentSLAP, true } for _, nextNode := range guideLayers[currentLevel-1] { if used[nextNode.ID] { continue } edge, found := bg.Edges.FindByNodes(currentNode, nextNode) if !found { continue } if matching.Contains(edge) == util.Odd(currentLevel) { continue } currentSLAP = append(currentSLAP, edge) slap, found := bg.findDisjointSLAPHelper(nextNode, currentSLAP, currentLevel-1, matching, guideLayers, used) if found { return slap, true } currentSLAP = currentSLAP[:len(currentSLAP)-1] } used[currentNode.ID] = false return nil, false } func (bg *BipartiteGraph) createSLAPGuideLayers(matching EdgeSet) (guideLayers []NodeOrderedSet) { used := make(map[int]bool) currentLayer := NodeOrderedSet{} for _, node := range bg.Left { if matching.Free(node) { used[node.ID] = true currentLayer = append(currentLayer, node) } } if len(currentLayer) == 0 { return []NodeOrderedSet{} } guideLayers = append(guideLayers, currentLayer) done := false for !done { lastLayer := currentLayer currentLayer = NodeOrderedSet{} if util.Odd(len(guideLayers)) { for _, leftNode := range lastLayer { for _, rightNode := range bg.Right { if used[rightNode.ID] { continue } edge, found := bg.Edges.FindByNodes(leftNode, rightNode) if !found || matching.Contains(edge) { continue } currentLayer = append(currentLayer, rightNode) used[rightNode.ID] = true if matching.Free(rightNode) { done = true } } } } else { for _, rightNode := range lastLayer { for _, leftNode := range bg.Left { if used[leftNode.ID] { continue } edge, found := bg.Edges.FindByNodes(leftNode, rightNode) if !found || !matching.Contains(edge) { continue } currentLayer = append(currentLayer, leftNode) used[leftNode.ID] = true } } } if len(currentLayer) == 0 { return []NodeOrderedSet{} } guideLayers = append(guideLayers, currentLayer) } return }
9,146
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/support/goraph
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/support/goraph/bipartitegraph/bipartitegraph.go
package bipartitegraph import "fmt" import . "github.com/onsi/gomega/matchers/support/goraph/node" import . "github.com/onsi/gomega/matchers/support/goraph/edge" type BipartiteGraph struct { Left NodeOrderedSet Right NodeOrderedSet Edges EdgeSet } func NewBipartiteGraph(leftValues, rightValues []interface{}, neighbours func(interface{}, interface{}) (bool, error)) (*BipartiteGraph, error) { left := NodeOrderedSet{} for i, v := range leftValues { left = append(left, Node{ID: i, Value: v}) } right := NodeOrderedSet{} for j, v := range rightValues { right = append(right, Node{ID: j + len(left), Value: v}) } edges := EdgeSet{} for i, leftValue := range leftValues { for j, rightValue := range rightValues { neighbours, err := neighbours(leftValue, rightValue) if err != nil { return nil, fmt.Errorf("error determining adjacency for %v and %v: %s", leftValue, rightValue, err.Error()) } if neighbours { edges = append(edges, Edge{Node1: left[i].ID, Node2: right[j].ID}) } } } return &BipartiteGraph{left, right, edges}, nil } // FreeLeftRight returns left node values and right node values // of the BipartiteGraph's nodes which are not part of the given edges. func (bg *BipartiteGraph) FreeLeftRight(edges EdgeSet) (leftValues, rightValues []interface{}) { for _, node := range bg.Left { if edges.Free(node) { leftValues = append(leftValues, node.Value) } } for _, node := range bg.Right { if edges.Free(node) { rightValues = append(rightValues, node.Value) } } return }
9,147
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/support/goraph
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/matchers/support/goraph/edge/edge.go
package edge import . "github.com/onsi/gomega/matchers/support/goraph/node" type Edge struct { Node1 int Node2 int } type EdgeSet []Edge func (ec EdgeSet) Free(node Node) bool { for _, e := range ec { if e.Node1 == node.ID || e.Node2 == node.ID { return false } } return true } func (ec EdgeSet) Contains(edge Edge) bool { for _, e := range ec { if e == edge { return true } } return false } func (ec EdgeSet) FindByNodes(node1, node2 Node) (Edge, bool) { for _, e := range ec { if (e.Node1 == node1.ID && e.Node2 == node2.ID) || (e.Node1 == node2.ID && e.Node2 == node1.ID) { return e, true } } return Edge{}, false } func (ec EdgeSet) SymmetricDifference(ec2 EdgeSet) EdgeSet { edgesToInclude := make(map[Edge]bool) for _, e := range ec { edgesToInclude[e] = true } for _, e := range ec2 { edgesToInclude[e] = !edgesToInclude[e] } result := EdgeSet{} for e, include := range edgesToInclude { if include { result = append(result, e) } } return result }
9,148
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/internal/asyncassertion/async_assertion.go
// untested sections: 2 package asyncassertion import ( "errors" "fmt" "reflect" "time" "github.com/onsi/gomega/internal/oraclematcher" "github.com/onsi/gomega/types" ) type AsyncAssertionType uint const ( AsyncAssertionTypeEventually AsyncAssertionType = iota AsyncAssertionTypeConsistently ) type AsyncAssertion struct { asyncType AsyncAssertionType actualInput interface{} timeoutInterval time.Duration pollingInterval time.Duration failWrapper *types.GomegaFailWrapper offset int } func New(asyncType AsyncAssertionType, actualInput interface{}, failWrapper *types.GomegaFailWrapper, timeoutInterval time.Duration, pollingInterval time.Duration, offset int) *AsyncAssertion { actualType := reflect.TypeOf(actualInput) if actualType.Kind() == reflect.Func { if actualType.NumIn() != 0 || actualType.NumOut() == 0 { panic("Expected a function with no arguments and one or more return values.") } } return &AsyncAssertion{ asyncType: asyncType, actualInput: actualInput, failWrapper: failWrapper, timeoutInterval: timeoutInterval, pollingInterval: pollingInterval, offset: offset, } } func (assertion *AsyncAssertion) Should(matcher types.GomegaMatcher, optionalDescription ...interface{}) bool { assertion.failWrapper.TWithHelper.Helper() return assertion.match(matcher, true, optionalDescription...) } func (assertion *AsyncAssertion) ShouldNot(matcher types.GomegaMatcher, optionalDescription ...interface{}) bool { assertion.failWrapper.TWithHelper.Helper() return assertion.match(matcher, false, optionalDescription...) } func (assertion *AsyncAssertion) buildDescription(optionalDescription ...interface{}) string { switch len(optionalDescription) { case 0: return "" case 1: if describe, ok := optionalDescription[0].(func() string); ok { return describe() + "\n" } } return fmt.Sprintf(optionalDescription[0].(string), optionalDescription[1:]...) + "\n" } func (assertion *AsyncAssertion) actualInputIsAFunction() bool { actualType := reflect.TypeOf(assertion.actualInput) return actualType.Kind() == reflect.Func && actualType.NumIn() == 0 && actualType.NumOut() > 0 } func (assertion *AsyncAssertion) pollActual() (interface{}, error) { if assertion.actualInputIsAFunction() { values := reflect.ValueOf(assertion.actualInput).Call([]reflect.Value{}) extras := []interface{}{} for _, value := range values[1:] { extras = append(extras, value.Interface()) } success, message := vetExtras(extras) if !success { return nil, errors.New(message) } return values[0].Interface(), nil } return assertion.actualInput, nil } func (assertion *AsyncAssertion) matcherMayChange(matcher types.GomegaMatcher, value interface{}) bool { if assertion.actualInputIsAFunction() { return true } return oraclematcher.MatchMayChangeInTheFuture(matcher, value) } func (assertion *AsyncAssertion) match(matcher types.GomegaMatcher, desiredMatch bool, optionalDescription ...interface{}) bool { timer := time.Now() timeout := time.After(assertion.timeoutInterval) var matches bool var err error mayChange := true value, err := assertion.pollActual() if err == nil { mayChange = assertion.matcherMayChange(matcher, value) matches, err = matcher.Match(value) } assertion.failWrapper.TWithHelper.Helper() fail := func(preamble string) { errMsg := "" message := "" if err != nil { errMsg = "Error: " + err.Error() } else { if desiredMatch { message = matcher.FailureMessage(value) } else { message = matcher.NegatedFailureMessage(value) } } assertion.failWrapper.TWithHelper.Helper() description := assertion.buildDescription(optionalDescription...) assertion.failWrapper.Fail(fmt.Sprintf("%s after %.3fs.\n%s%s%s", preamble, time.Since(timer).Seconds(), description, message, errMsg), 3+assertion.offset) } if assertion.asyncType == AsyncAssertionTypeEventually { for { if err == nil && matches == desiredMatch { return true } if !mayChange { fail("No future change is possible. Bailing out early") return false } select { case <-time.After(assertion.pollingInterval): value, err = assertion.pollActual() if err == nil { mayChange = assertion.matcherMayChange(matcher, value) matches, err = matcher.Match(value) } case <-timeout: fail("Timed out") return false } } } else if assertion.asyncType == AsyncAssertionTypeConsistently { for { if !(err == nil && matches == desiredMatch) { fail("Failed") return false } if !mayChange { return true } select { case <-time.After(assertion.pollingInterval): value, err = assertion.pollActual() if err == nil { mayChange = assertion.matcherMayChange(matcher, value) matches, err = matcher.Match(value) } case <-timeout: return true } } } return false } func vetExtras(extras []interface{}) (bool, string) { for i, extra := range extras { if extra != nil { zeroValue := reflect.Zero(reflect.TypeOf(extra)).Interface() if !reflect.DeepEqual(zeroValue, extra) { message := fmt.Sprintf("Unexpected non-nil/non-zero extra argument at index %d:\n\t<%T>: %#v", i+1, extra, extra) return false, message } } } return true, "" }
9,149
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/internal/testingtsupport/testing_t_support.go
package testingtsupport import ( "regexp" "runtime/debug" "strings" "github.com/onsi/gomega/types" ) var StackTracePruneRE = regexp.MustCompile(`\/gomega\/|\/ginkgo\/|\/pkg\/testing\/|\/pkg\/runtime\/`) type EmptyTWithHelper struct{} func (e EmptyTWithHelper) Helper() {} type gomegaTestingT interface { Fatalf(format string, args ...interface{}) } func BuildTestingTGomegaFailWrapper(t gomegaTestingT) *types.GomegaFailWrapper { tWithHelper, hasHelper := t.(types.TWithHelper) if !hasHelper { tWithHelper = EmptyTWithHelper{} } fail := func(message string, callerSkip ...int) { if hasHelper { tWithHelper.Helper() t.Fatalf("\n%s", message) } else { skip := 2 if len(callerSkip) > 0 { skip += callerSkip[0] } stackTrace := pruneStack(string(debug.Stack()), skip) t.Fatalf("\n%s\n%s\n", stackTrace, message) } } return &types.GomegaFailWrapper{ Fail: fail, TWithHelper: tWithHelper, } } func pruneStack(fullStackTrace string, skip int) string { stack := strings.Split(fullStackTrace, "\n")[1:] if len(stack) > 2*skip { stack = stack[2*skip:] } prunedStack := []string{} for i := 0; i < len(stack)/2; i++ { if !StackTracePruneRE.Match([]byte(stack[i*2])) { prunedStack = append(prunedStack, stack[i*2]) prunedStack = append(prunedStack, stack[i*2+1]) } } return strings.Join(prunedStack, "\n") }
9,150
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/internal/assertion/assertion.go
package assertion import ( "fmt" "reflect" "github.com/onsi/gomega/types" ) type Assertion struct { actualInput interface{} failWrapper *types.GomegaFailWrapper offset int extra []interface{} } func New(actualInput interface{}, failWrapper *types.GomegaFailWrapper, offset int, extra ...interface{}) *Assertion { return &Assertion{ actualInput: actualInput, failWrapper: failWrapper, offset: offset, extra: extra, } } func (assertion *Assertion) Should(matcher types.GomegaMatcher, optionalDescription ...interface{}) bool { assertion.failWrapper.TWithHelper.Helper() return assertion.vetExtras(optionalDescription...) && assertion.match(matcher, true, optionalDescription...) } func (assertion *Assertion) ShouldNot(matcher types.GomegaMatcher, optionalDescription ...interface{}) bool { assertion.failWrapper.TWithHelper.Helper() return assertion.vetExtras(optionalDescription...) && assertion.match(matcher, false, optionalDescription...) } func (assertion *Assertion) To(matcher types.GomegaMatcher, optionalDescription ...interface{}) bool { assertion.failWrapper.TWithHelper.Helper() return assertion.vetExtras(optionalDescription...) && assertion.match(matcher, true, optionalDescription...) } func (assertion *Assertion) ToNot(matcher types.GomegaMatcher, optionalDescription ...interface{}) bool { assertion.failWrapper.TWithHelper.Helper() return assertion.vetExtras(optionalDescription...) && assertion.match(matcher, false, optionalDescription...) } func (assertion *Assertion) NotTo(matcher types.GomegaMatcher, optionalDescription ...interface{}) bool { assertion.failWrapper.TWithHelper.Helper() return assertion.vetExtras(optionalDescription...) && assertion.match(matcher, false, optionalDescription...) } func (assertion *Assertion) buildDescription(optionalDescription ...interface{}) string { switch len(optionalDescription) { case 0: return "" case 1: if describe, ok := optionalDescription[0].(func() string); ok { return describe() + "\n" } } return fmt.Sprintf(optionalDescription[0].(string), optionalDescription[1:]...) + "\n" } func (assertion *Assertion) match(matcher types.GomegaMatcher, desiredMatch bool, optionalDescription ...interface{}) bool { matches, err := matcher.Match(assertion.actualInput) assertion.failWrapper.TWithHelper.Helper() if err != nil { description := assertion.buildDescription(optionalDescription...) assertion.failWrapper.Fail(description+err.Error(), 2+assertion.offset) return false } if matches != desiredMatch { var message string if desiredMatch { message = matcher.FailureMessage(assertion.actualInput) } else { message = matcher.NegatedFailureMessage(assertion.actualInput) } description := assertion.buildDescription(optionalDescription...) assertion.failWrapper.Fail(description+message, 2+assertion.offset) return false } return true } func (assertion *Assertion) vetExtras(optionalDescription ...interface{}) bool { success, message := vetExtras(assertion.extra) if success { return true } description := assertion.buildDescription(optionalDescription...) assertion.failWrapper.TWithHelper.Helper() assertion.failWrapper.Fail(description+message, 2+assertion.offset) return false } func vetExtras(extras []interface{}) (bool, string) { for i, extra := range extras { if extra != nil { zeroValue := reflect.Zero(reflect.TypeOf(extra)).Interface() if !reflect.DeepEqual(zeroValue, extra) { message := fmt.Sprintf("Unexpected non-nil/non-zero extra argument at index %d:\n\t<%T>: %#v", i+1, extra, extra) return false, message } } } return true, "" }
9,151
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/internal/oraclematcher/oracle_matcher.go
package oraclematcher import "github.com/onsi/gomega/types" /* GomegaMatchers that also match the OracleMatcher interface can convey information about whether or not their result will change upon future attempts. This allows `Eventually` and `Consistently` to short circuit if success becomes impossible. For example, a process' exit code can never change. So, gexec's Exit matcher returns `true` for `MatchMayChangeInTheFuture` until the process exits, at which point it returns `false` forevermore. */ type OracleMatcher interface { MatchMayChangeInTheFuture(actual interface{}) bool } func MatchMayChangeInTheFuture(matcher types.GomegaMatcher, value interface{}) bool { oracleMatcher, ok := matcher.(OracleMatcher) if !ok { return true } return oracleMatcher.MatchMayChangeInTheFuture(value) }
9,152
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/gexec/exit_matcher.go
// untested sections: 2 package gexec import ( "fmt" "github.com/onsi/gomega/format" ) /* The Exit matcher operates on a session: Expect(session).Should(Exit(<optional status code>)) Exit passes if the session has already exited. If no status code is provided, then Exit will succeed if the session has exited regardless of exit code. Otherwise, Exit will only succeed if the process has exited with the provided status code. Note that the process must have already exited. To wait for a process to exit, use Eventually: Eventually(session, 3).Should(Exit(0)) */ func Exit(optionalExitCode ...int) *exitMatcher { exitCode := -1 if len(optionalExitCode) > 0 { exitCode = optionalExitCode[0] } return &exitMatcher{ exitCode: exitCode, } } type exitMatcher struct { exitCode int didExit bool actualExitCode int } type Exiter interface { ExitCode() int } func (m *exitMatcher) Match(actual interface{}) (success bool, err error) { exiter, ok := actual.(Exiter) if !ok { return false, fmt.Errorf("Exit must be passed a gexec.Exiter (Missing method ExitCode() int) Got:\n%s", format.Object(actual, 1)) } m.actualExitCode = exiter.ExitCode() if m.actualExitCode == -1 { return false, nil } if m.exitCode == -1 { return true, nil } return m.exitCode == m.actualExitCode, nil } func (m *exitMatcher) FailureMessage(actual interface{}) (message string) { if m.actualExitCode == -1 { return "Expected process to exit. It did not." } return format.Message(m.actualExitCode, "to match exit code:", m.exitCode) } func (m *exitMatcher) NegatedFailureMessage(actual interface{}) (message string) { if m.actualExitCode == -1 { return "you really shouldn't be able to see this!" } else { if m.exitCode == -1 { return "Expected process not to exit. It did." } return format.Message(m.actualExitCode, "not to match exit code:", m.exitCode) } } func (m *exitMatcher) MatchMayChangeInTheFuture(actual interface{}) bool { session, ok := actual.(*Session) if ok { return session.ExitCode() == -1 } return true }
9,153
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/gexec/session.go
/* Package gexec provides support for testing external processes. */ // untested sections: 1 package gexec import ( "io" "os" "os/exec" "sync" "syscall" . "github.com/onsi/gomega" "github.com/onsi/gomega/gbytes" ) const INVALID_EXIT_CODE = 254 type Session struct { //The wrapped command Command *exec.Cmd //A *gbytes.Buffer connected to the command's stdout Out *gbytes.Buffer //A *gbytes.Buffer connected to the command's stderr Err *gbytes.Buffer //A channel that will close when the command exits Exited <-chan struct{} lock *sync.Mutex exitCode int } /* Start starts the passed-in *exec.Cmd command. It wraps the command in a *gexec.Session. The session pipes the command's stdout and stderr to two *gbytes.Buffers available as properties on the session: session.Out and session.Err. These buffers can be used with the gbytes.Say matcher to match against unread output: Expect(session.Out).Should(gbytes.Say("foo-out")) Expect(session.Err).Should(gbytes.Say("foo-err")) In addition, Session satisfies the gbytes.BufferProvider interface and provides the stdout *gbytes.Buffer. This allows you to replace the first line, above, with: Expect(session).Should(gbytes.Say("foo-out")) When outWriter and/or errWriter are non-nil, the session will pipe stdout and/or stderr output both into the session *gybtes.Buffers and to the passed-in outWriter/errWriter. This is useful for capturing the process's output or logging it to screen. In particular, when using Ginkgo it can be convenient to direct output to the GinkgoWriter: session, err := Start(command, GinkgoWriter, GinkgoWriter) This will log output when running tests in verbose mode, but - otherwise - will only log output when a test fails. The session wrapper is responsible for waiting on the *exec.Cmd command. You *should not* call command.Wait() yourself. Instead, to assert that the command has exited you can use the gexec.Exit matcher: Expect(session).Should(gexec.Exit()) When the session exits it closes the stdout and stderr gbytes buffers. This will short circuit any Eventuallys waiting for the buffers to Say something. */ func Start(command *exec.Cmd, outWriter io.Writer, errWriter io.Writer) (*Session, error) { exited := make(chan struct{}) session := &Session{ Command: command, Out: gbytes.NewBuffer(), Err: gbytes.NewBuffer(), Exited: exited, lock: &sync.Mutex{}, exitCode: -1, } var commandOut, commandErr io.Writer commandOut, commandErr = session.Out, session.Err if outWriter != nil { commandOut = io.MultiWriter(commandOut, outWriter) } if errWriter != nil { commandErr = io.MultiWriter(commandErr, errWriter) } command.Stdout = commandOut command.Stderr = commandErr err := command.Start() if err == nil { go session.monitorForExit(exited) trackedSessionsMutex.Lock() defer trackedSessionsMutex.Unlock() trackedSessions = append(trackedSessions, session) } return session, err } /* Buffer implements the gbytes.BufferProvider interface and returns s.Out This allows you to make gbytes.Say matcher assertions against stdout without having to reference .Out: Eventually(session).Should(gbytes.Say("foo")) */ func (s *Session) Buffer() *gbytes.Buffer { return s.Out } /* ExitCode returns the wrapped command's exit code. If the command hasn't exited yet, ExitCode returns -1. To assert that the command has exited it is more convenient to use the Exit matcher: Eventually(s).Should(gexec.Exit()) When the process exits because it has received a particular signal, the exit code will be 128+signal-value (See http://www.tldp.org/LDP/abs/html/exitcodes.html and http://man7.org/linux/man-pages/man7/signal.7.html) */ func (s *Session) ExitCode() int { s.lock.Lock() defer s.lock.Unlock() return s.exitCode } /* Wait waits until the wrapped command exits. It can be passed an optional timeout. If the command does not exit within the timeout, Wait will trigger a test failure. Wait returns the session, making it possible to chain: session.Wait().Out.Contents() will wait for the command to exit then return the entirety of Out's contents. Wait uses eventually under the hood and accepts the same timeout/polling intervals that eventually does. */ func (s *Session) Wait(timeout ...interface{}) *Session { EventuallyWithOffset(1, s, timeout...).Should(Exit()) return s } /* Kill sends the running command a SIGKILL signal. It does not wait for the process to exit. If the command has already exited, Kill returns silently. The session is returned to enable chaining. */ func (s *Session) Kill() *Session { return s.Signal(syscall.SIGKILL) } /* Interrupt sends the running command a SIGINT signal. It does not wait for the process to exit. If the command has already exited, Interrupt returns silently. The session is returned to enable chaining. */ func (s *Session) Interrupt() *Session { return s.Signal(syscall.SIGINT) } /* Terminate sends the running command a SIGTERM signal. It does not wait for the process to exit. If the command has already exited, Terminate returns silently. The session is returned to enable chaining. */ func (s *Session) Terminate() *Session { return s.Signal(syscall.SIGTERM) } /* Signal sends the running command the passed in signal. It does not wait for the process to exit. If the command has already exited, Signal returns silently. The session is returned to enable chaining. */ func (s *Session) Signal(signal os.Signal) *Session { if s.processIsAlive() { s.Command.Process.Signal(signal) } return s } func (s *Session) monitorForExit(exited chan<- struct{}) { err := s.Command.Wait() s.lock.Lock() s.Out.Close() s.Err.Close() status := s.Command.ProcessState.Sys().(syscall.WaitStatus) if status.Signaled() { s.exitCode = 128 + int(status.Signal()) } else { exitStatus := status.ExitStatus() if exitStatus == -1 && err != nil { s.exitCode = INVALID_EXIT_CODE } s.exitCode = exitStatus } s.lock.Unlock() close(exited) } func (s *Session) processIsAlive() bool { return s.ExitCode() == -1 && s.Command.Process != nil } var trackedSessions = []*Session{} var trackedSessionsMutex = &sync.Mutex{} /* Kill sends a SIGKILL signal to all the processes started by Run, and waits for them to exit. The timeout specified is applied to each process killed. If any of the processes already exited, KillAndWait returns silently. */ func KillAndWait(timeout ...interface{}) { trackedSessionsMutex.Lock() defer trackedSessionsMutex.Unlock() for _, session := range trackedSessions { session.Kill().Wait(timeout...) } trackedSessions = []*Session{} } /* Kill sends a SIGTERM signal to all the processes started by Run, and waits for them to exit. The timeout specified is applied to each process killed. If any of the processes already exited, TerminateAndWait returns silently. */ func TerminateAndWait(timeout ...interface{}) { trackedSessionsMutex.Lock() defer trackedSessionsMutex.Unlock() for _, session := range trackedSessions { session.Terminate().Wait(timeout...) } } /* Kill sends a SIGKILL signal to all the processes started by Run. It does not wait for the processes to exit. If any of the processes already exited, Kill returns silently. */ func Kill() { trackedSessionsMutex.Lock() defer trackedSessionsMutex.Unlock() for _, session := range trackedSessions { session.Kill() } } /* Terminate sends a SIGTERM signal to all the processes started by Run. It does not wait for the processes to exit. If any of the processes already exited, Terminate returns silently. */ func Terminate() { trackedSessionsMutex.Lock() defer trackedSessionsMutex.Unlock() for _, session := range trackedSessions { session.Terminate() } } /* Signal sends the passed in signal to all the processes started by Run. It does not wait for the processes to exit. If any of the processes already exited, Signal returns silently. */ func Signal(signal os.Signal) { trackedSessionsMutex.Lock() defer trackedSessionsMutex.Unlock() for _, session := range trackedSessions { session.Signal(signal) } } /* Interrupt sends the SIGINT signal to all the processes started by Run. It does not wait for the processes to exit. If any of the processes already exited, Interrupt returns silently. */ func Interrupt() { trackedSessionsMutex.Lock() defer trackedSessionsMutex.Unlock() for _, session := range trackedSessions { session.Interrupt() } }
9,154
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/gexec/build.go
// untested sections: 5 package gexec import ( "crypto/md5" "encoding/hex" "errors" "fmt" "go/build" "io/ioutil" "os" "os/exec" "path" "path/filepath" "runtime" "strings" "sync" ) var ( mu sync.Mutex tmpDir string ) /* Build uses go build to compile the package at packagePath. The resulting binary is saved off in a temporary directory. A path pointing to this binary is returned. Build uses the $GOPATH set in your environment. If $GOPATH is not set and you are using Go 1.8+, it will use the default GOPATH instead. It passes the variadic args on to `go build`. */ func Build(packagePath string, args ...string) (compiledPath string, err error) { return doBuild(build.Default.GOPATH, packagePath, nil, args...) } /* BuildWithEnvironment is identical to Build but allows you to specify env vars to be set at build time. */ func BuildWithEnvironment(packagePath string, env []string, args ...string) (compiledPath string, err error) { return doBuild(build.Default.GOPATH, packagePath, env, args...) } /* BuildIn is identical to Build but allows you to specify a custom $GOPATH (the first argument). */ func BuildIn(gopath string, packagePath string, args ...string) (compiledPath string, err error) { return doBuild(gopath, packagePath, nil, args...) } func doBuild(gopath, packagePath string, env []string, args ...string) (compiledPath string, err error) { executable, err := newExecutablePath(gopath, packagePath) if err != nil { return "", err } cmdArgs := append([]string{"build"}, args...) cmdArgs = append(cmdArgs, "-o", executable, packagePath) build := exec.Command("go", cmdArgs...) build.Env = replaceGoPath(os.Environ(), gopath) build.Env = append(build.Env, env...) output, err := build.CombinedOutput() if err != nil { return "", fmt.Errorf("Failed to build %s:\n\nError:\n%s\n\nOutput:\n%s", packagePath, err, string(output)) } return executable, nil } /* CompileTest uses go test to compile the test package at packagePath. The resulting binary is saved off in a temporary directory. A path pointing to this binary is returned. CompileTest uses the $GOPATH set in your environment. If $GOPATH is not set and you are using Go 1.8+, it will use the default GOPATH instead. It passes the variadic args on to `go test`. */ func CompileTest(packagePath string, args ...string) (compiledPath string, err error) { return doCompileTest(build.Default.GOPATH, packagePath, nil, args...) } /* GetAndCompileTest is identical to CompileTest but `go get` the package before compiling tests. */ func GetAndCompileTest(packagePath string, args ...string) (compiledPath string, err error) { if err := getForTest(build.Default.GOPATH, packagePath, nil); err != nil { return "", err } return doCompileTest(build.Default.GOPATH, packagePath, nil, args...) } /* CompileTestWithEnvironment is identical to CompileTest but allows you to specify env vars to be set at build time. */ func CompileTestWithEnvironment(packagePath string, env []string, args ...string) (compiledPath string, err error) { return doCompileTest(build.Default.GOPATH, packagePath, env, args...) } /* GetAndCompileTestWithEnvironment is identical to GetAndCompileTest but allows you to specify env vars to be set at build time. */ func GetAndCompileTestWithEnvironment(packagePath string, env []string, args ...string) (compiledPath string, err error) { if err := getForTest(build.Default.GOPATH, packagePath, env); err != nil { return "", err } return doCompileTest(build.Default.GOPATH, packagePath, env, args...) } /* CompileTestIn is identical to CompileTest but allows you to specify a custom $GOPATH (the first argument). */ func CompileTestIn(gopath string, packagePath string, args ...string) (compiledPath string, err error) { return doCompileTest(gopath, packagePath, nil, args...) } /* GetAndCompileTestIn is identical to GetAndCompileTest but allows you to specify a custom $GOPATH (the first argument). */ func GetAndCompileTestIn(gopath string, packagePath string, args ...string) (compiledPath string, err error) { if err := getForTest(gopath, packagePath, nil); err != nil { return "", err } return doCompileTest(gopath, packagePath, nil, args...) } func isLocalPackage(packagePath string) bool { return strings.HasPrefix(packagePath, ".") } func getForTest(gopath, packagePath string, env []string) error { if isLocalPackage(packagePath) { return nil } return doGet(gopath, packagePath, env, "-t") } func doGet(gopath, packagePath string, env []string, args ...string) error { args = append(args, packagePath) args = append([]string{"get"}, args...) goGet := exec.Command("go", args...) goGet.Dir = gopath goGet.Env = replaceGoPath(os.Environ(), gopath) goGet.Env = append(goGet.Env, env...) output, err := goGet.CombinedOutput() if err != nil { return fmt.Errorf("Failed to get %s:\n\nError:\n%s\n\nOutput:\n%s", packagePath, err, string(output)) } return nil } func doCompileTest(gopath, packagePath string, env []string, args ...string) (compiledPath string, err error) { executable, err := newExecutablePath(gopath, packagePath, ".test") if err != nil { return "", err } cmdArgs := append([]string{"test", "-c"}, args...) cmdArgs = append(cmdArgs, "-o", executable, packagePath) build := exec.Command("go", cmdArgs...) build.Env = replaceGoPath(os.Environ(), gopath) build.Env = append(build.Env, env...) output, err := build.CombinedOutput() if err != nil { return "", fmt.Errorf("Failed to build %s:\n\nError:\n%s\n\nOutput:\n%s", packagePath, err, string(output)) } return executable, nil } func replaceGoPath(environ []string, newGoPath string) []string { newEnviron := []string{} for _, v := range environ { if !strings.HasPrefix(v, "GOPATH=") { newEnviron = append(newEnviron, v) } } return append(newEnviron, "GOPATH="+newGoPath) } func newExecutablePath(gopath, packagePath string, suffixes ...string) (string, error) { tmpDir, err := temporaryDirectory() if err != nil { return "", err } if len(gopath) == 0 { return "", errors.New("$GOPATH not provided when building " + packagePath) } hash := md5.Sum([]byte(packagePath)) filename := fmt.Sprintf("%s-%x%s", path.Base(packagePath), hex.EncodeToString(hash[:]), strings.Join(suffixes, "")) executable := filepath.Join(tmpDir, filename) if runtime.GOOS == "windows" { executable += ".exe" } return executable, nil } /* You should call CleanupBuildArtifacts before your test ends to clean up any temporary artifacts generated by gexec. In Ginkgo this is typically done in an AfterSuite callback. */ func CleanupBuildArtifacts() { mu.Lock() defer mu.Unlock() if tmpDir != "" { os.RemoveAll(tmpDir) tmpDir = "" } } func temporaryDirectory() (string, error) { var err error mu.Lock() defer mu.Unlock() if tmpDir == "" { tmpDir, err = ioutil.TempDir("", "gexec_artifacts") if err != nil { return "", err } } return ioutil.TempDir(tmpDir, "g") }
9,155
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/gexec/prefixed_writer.go
// untested sections: 1 package gexec import ( "io" "sync" ) /* PrefixedWriter wraps an io.Writer, emitting the passed in prefix at the beginning of each new line. This can be useful when running multiple gexec.Sessions concurrently - you can prefix the log output of each session by passing in a PrefixedWriter: gexec.Start(cmd, NewPrefixedWriter("[my-cmd] ", GinkgoWriter), NewPrefixedWriter("[my-cmd] ", GinkgoWriter)) */ type PrefixedWriter struct { prefix []byte writer io.Writer lock *sync.Mutex atStartOfLine bool } func NewPrefixedWriter(prefix string, writer io.Writer) *PrefixedWriter { return &PrefixedWriter{ prefix: []byte(prefix), writer: writer, lock: &sync.Mutex{}, atStartOfLine: true, } } func (w *PrefixedWriter) Write(b []byte) (int, error) { w.lock.Lock() defer w.lock.Unlock() toWrite := []byte{} for _, c := range b { if w.atStartOfLine { toWrite = append(toWrite, w.prefix...) } toWrite = append(toWrite, c) w.atStartOfLine = c == '\n' } _, err := w.writer.Write(toWrite) if err != nil { return 0, err } return len(b), nil }
9,156
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/types/types.go
package types type TWithHelper interface { Helper() } type GomegaFailHandler func(message string, callerSkip ...int) type GomegaFailWrapper struct { Fail GomegaFailHandler TWithHelper TWithHelper } //A simple *testing.T interface wrapper type GomegaTestingT interface { Fatalf(format string, args ...interface{}) } //All Gomega matchers must implement the GomegaMatcher interface // //For details on writing custom matchers, check out: http://onsi.github.io/gomega/#adding-your-own-matchers type GomegaMatcher interface { Match(actual interface{}) (success bool, err error) FailureMessage(actual interface{}) (message string) NegatedFailureMessage(actual interface{}) (message string) }
9,157
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/gomega/format/format.go
/* Gomega's format package pretty-prints objects. It explores input objects recursively and generates formatted, indented output with type information. */ // untested sections: 4 package format import ( "context" "fmt" "reflect" "strconv" "strings" "time" ) // Use MaxDepth to set the maximum recursion depth when printing deeply nested objects var MaxDepth = uint(10) /* By default, all objects (even those that implement fmt.Stringer and fmt.GoStringer) are recursively inspected to generate output. Set UseStringerRepresentation = true to use GoString (for fmt.GoStringers) or String (for fmt.Stringer) instead. Note that GoString and String don't always have all the information you need to understand why a test failed! */ var UseStringerRepresentation = false /* Print the content of context objects. By default it will be suppressed. Set PrintContextObjects = true to enable printing of the context internals. */ var PrintContextObjects = false // TruncatedDiff choose if we should display a truncated pretty diff or not var TruncatedDiff = true // TruncateThreshold (default 50) specifies the maximum length string to print in string comparison assertion error // messages. var TruncateThreshold uint = 50 // CharactersAroundMismatchToInclude (default 5) specifies how many contextual characters should be printed before and // after the first diff location in a truncated string assertion error message. var CharactersAroundMismatchToInclude uint = 5 var contextType = reflect.TypeOf((*context.Context)(nil)).Elem() var timeType = reflect.TypeOf(time.Time{}) //The default indentation string emitted by the format package var Indent = " " var longFormThreshold = 20 /* Generates a formatted matcher success/failure message of the form: Expected <pretty printed actual> <message> <pretty printed expected> If expected is omitted, then the message looks like: Expected <pretty printed actual> <message> */ func Message(actual interface{}, message string, expected ...interface{}) string { if len(expected) == 0 { return fmt.Sprintf("Expected\n%s\n%s", Object(actual, 1), message) } return fmt.Sprintf("Expected\n%s\n%s\n%s", Object(actual, 1), message, Object(expected[0], 1)) } /* Generates a nicely formatted matcher success / failure message Much like Message(...), but it attempts to pretty print diffs in strings Expected <string>: "...aaaaabaaaaa..." to equal | <string>: "...aaaaazaaaaa..." */ func MessageWithDiff(actual, message, expected string) string { if TruncatedDiff && len(actual) >= int(TruncateThreshold) && len(expected) >= int(TruncateThreshold) { diffPoint := findFirstMismatch(actual, expected) formattedActual := truncateAndFormat(actual, diffPoint) formattedExpected := truncateAndFormat(expected, diffPoint) spacesBeforeFormattedMismatch := findFirstMismatch(formattedActual, formattedExpected) tabLength := 4 spaceFromMessageToActual := tabLength + len("<string>: ") - len(message) paddingCount := spaceFromMessageToActual + spacesBeforeFormattedMismatch if paddingCount < 0 { return Message(formattedActual, message, formattedExpected) } padding := strings.Repeat(" ", paddingCount) + "|" return Message(formattedActual, message+padding, formattedExpected) } actual = escapedWithGoSyntax(actual) expected = escapedWithGoSyntax(expected) return Message(actual, message, expected) } func escapedWithGoSyntax(str string) string { withQuotes := fmt.Sprintf("%q", str) return withQuotes[1 : len(withQuotes)-1] } func truncateAndFormat(str string, index int) string { leftPadding := `...` rightPadding := `...` start := index - int(CharactersAroundMismatchToInclude) if start < 0 { start = 0 leftPadding = "" } // slice index must include the mis-matched character lengthOfMismatchedCharacter := 1 end := index + int(CharactersAroundMismatchToInclude) + lengthOfMismatchedCharacter if end > len(str) { end = len(str) rightPadding = "" } return fmt.Sprintf("\"%s\"", leftPadding+str[start:end]+rightPadding) } func findFirstMismatch(a, b string) int { aSlice := strings.Split(a, "") bSlice := strings.Split(b, "") for index, str := range aSlice { if index > len(bSlice)-1 { return index } if str != bSlice[index] { return index } } if len(b) > len(a) { return len(a) + 1 } return 0 } /* Pretty prints the passed in object at the passed in indentation level. Object recurses into deeply nested objects emitting pretty-printed representations of their components. Modify format.MaxDepth to control how deep the recursion is allowed to go Set format.UseStringerRepresentation to true to return object.GoString() or object.String() when available instead of recursing into the object. Set PrintContextObjects to true to print the content of objects implementing context.Context */ func Object(object interface{}, indentation uint) string { indent := strings.Repeat(Indent, int(indentation)) value := reflect.ValueOf(object) return fmt.Sprintf("%s<%s>: %s", indent, formatType(value), formatValue(value, indentation)) } /* IndentString takes a string and indents each line by the specified amount. */ func IndentString(s string, indentation uint) string { components := strings.Split(s, "\n") result := "" indent := strings.Repeat(Indent, int(indentation)) for i, component := range components { result += indent + component if i < len(components)-1 { result += "\n" } } return result } func formatType(v reflect.Value) string { switch v.Kind() { case reflect.Invalid: return "nil" case reflect.Chan: return fmt.Sprintf("%s | len:%d, cap:%d", v.Type(), v.Len(), v.Cap()) case reflect.Ptr: return fmt.Sprintf("%s | 0x%x", v.Type(), v.Pointer()) case reflect.Slice: return fmt.Sprintf("%s | len:%d, cap:%d", v.Type(), v.Len(), v.Cap()) case reflect.Map: return fmt.Sprintf("%s | len:%d", v.Type(), v.Len()) default: return fmt.Sprintf("%s", v.Type()) } } func formatValue(value reflect.Value, indentation uint) string { if indentation > MaxDepth { return "..." } if isNilValue(value) { return "nil" } if UseStringerRepresentation { if value.CanInterface() { obj := value.Interface() switch x := obj.(type) { case fmt.GoStringer: return x.GoString() case fmt.Stringer: return x.String() } } } if !PrintContextObjects { if value.Type().Implements(contextType) && indentation > 1 { return "<suppressed context>" } } switch value.Kind() { case reflect.Bool: return fmt.Sprintf("%v", value.Bool()) case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: return fmt.Sprintf("%v", value.Int()) case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64: return fmt.Sprintf("%v", value.Uint()) case reflect.Uintptr: return fmt.Sprintf("0x%x", value.Uint()) case reflect.Float32, reflect.Float64: return fmt.Sprintf("%v", value.Float()) case reflect.Complex64, reflect.Complex128: return fmt.Sprintf("%v", value.Complex()) case reflect.Chan: return fmt.Sprintf("0x%x", value.Pointer()) case reflect.Func: return fmt.Sprintf("0x%x", value.Pointer()) case reflect.Ptr: return formatValue(value.Elem(), indentation) case reflect.Slice: return formatSlice(value, indentation) case reflect.String: return formatString(value.String(), indentation) case reflect.Array: return formatSlice(value, indentation) case reflect.Map: return formatMap(value, indentation) case reflect.Struct: if value.Type() == timeType && value.CanInterface() { t, _ := value.Interface().(time.Time) return t.Format(time.RFC3339Nano) } return formatStruct(value, indentation) case reflect.Interface: return formatInterface(value, indentation) default: if value.CanInterface() { return fmt.Sprintf("%#v", value.Interface()) } return fmt.Sprintf("%#v", value) } } func formatString(object interface{}, indentation uint) string { if indentation == 1 { s := fmt.Sprintf("%s", object) components := strings.Split(s, "\n") result := "" for i, component := range components { if i == 0 { result += component } else { result += Indent + component } if i < len(components)-1 { result += "\n" } } return result } else { return fmt.Sprintf("%q", object) } } func formatSlice(v reflect.Value, indentation uint) string { if v.Kind() == reflect.Slice && v.Type().Elem().Kind() == reflect.Uint8 && isPrintableString(string(v.Bytes())) { return formatString(v.Bytes(), indentation) } l := v.Len() result := make([]string, l) longest := 0 for i := 0; i < l; i++ { result[i] = formatValue(v.Index(i), indentation+1) if len(result[i]) > longest { longest = len(result[i]) } } if longest > longFormThreshold { indenter := strings.Repeat(Indent, int(indentation)) return fmt.Sprintf("[\n%s%s,\n%s]", indenter+Indent, strings.Join(result, ",\n"+indenter+Indent), indenter) } return fmt.Sprintf("[%s]", strings.Join(result, ", ")) } func formatMap(v reflect.Value, indentation uint) string { l := v.Len() result := make([]string, l) longest := 0 for i, key := range v.MapKeys() { value := v.MapIndex(key) result[i] = fmt.Sprintf("%s: %s", formatValue(key, indentation+1), formatValue(value, indentation+1)) if len(result[i]) > longest { longest = len(result[i]) } } if longest > longFormThreshold { indenter := strings.Repeat(Indent, int(indentation)) return fmt.Sprintf("{\n%s%s,\n%s}", indenter+Indent, strings.Join(result, ",\n"+indenter+Indent), indenter) } return fmt.Sprintf("{%s}", strings.Join(result, ", ")) } func formatStruct(v reflect.Value, indentation uint) string { t := v.Type() l := v.NumField() result := []string{} longest := 0 for i := 0; i < l; i++ { structField := t.Field(i) fieldEntry := v.Field(i) representation := fmt.Sprintf("%s: %s", structField.Name, formatValue(fieldEntry, indentation+1)) result = append(result, representation) if len(representation) > longest { longest = len(representation) } } if longest > longFormThreshold { indenter := strings.Repeat(Indent, int(indentation)) return fmt.Sprintf("{\n%s%s,\n%s}", indenter+Indent, strings.Join(result, ",\n"+indenter+Indent), indenter) } return fmt.Sprintf("{%s}", strings.Join(result, ", ")) } func formatInterface(v reflect.Value, indentation uint) string { return fmt.Sprintf("<%s>%s", formatType(v.Elem()), formatValue(v.Elem(), indentation)) } func isNilValue(a reflect.Value) bool { switch a.Kind() { case reflect.Invalid: return true case reflect.Chan, reflect.Func, reflect.Interface, reflect.Map, reflect.Ptr, reflect.Slice: return a.IsNil() } return false } /* Returns true when the string is entirely made of printable runes, false otherwise. */ func isPrintableString(str string) bool { for _, runeValue := range str { if !strconv.IsPrint(runeValue) { return false } } return true }
9,158
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/go.mod
module github.com/onsi/ginkgo go 1.15 require ( github.com/nxadm/tail v1.4.8 github.com/onsi/gomega v1.10.1 golang.org/x/sys v0.0.0-20210112080510-489259a85091 golang.org/x/tools v0.0.0-20201224043029-2b0845dc783e )
9,159
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/RELEASING.md
A Ginkgo release is a tagged git sha and a GitHub release. To cut a release: 1. Ensure CHANGELOG.md is up to date. - Use `git log --pretty=format:'- %s [%h]' HEAD...vX.X.X` to list all the commits since the last release - Categorize the changes into - Breaking Changes (requires a major version) - New Features (minor version) - Fixes (fix version) - Maintenance (which in general should not be mentioned in `CHANGELOG.md` as they have no user impact) 1. Update `VERSION` in `config/config.go` 1. Create a commit with the version number as the commit message (e.g. `v1.3.0`) 1. Tag the commit with the version number as the tag name (e.g. `v1.3.0`) 1. Push the commit and tag to GitHub 1. Create a new [GitHub release](https://help.github.com/articles/creating-releases/) with the version number as the tag (e.g. `v1.3.0`). List the key changes in the release notes.
9,160
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/README.md
![Ginkgo: A Go BDD Testing Framework](https://onsi.github.io/ginkgo/images/ginkgo.png) [![Build Status](https://travis-ci.org/onsi/ginkgo.svg?branch=master)](https://travis-ci.org/onsi/ginkgo) [![test](https://github.com/onsi/ginkgo/workflows/test/badge.svg?branch=master)](https://github.com/onsi/ginkgo/actions?query=workflow%3Atest+branch%3Amaster) Jump to the [docs](https://onsi.github.io/ginkgo/) | [中文文档](https://ke-chain.github.io/ginkgodoc) to learn more. To start rolling your Ginkgo tests *now* [keep reading](#set-me-up)! If you have a question, comment, bug report, feature request, etc. please open a GitHub issue, or visit the [Ginkgo Slack channel](https://app.slack.com/client/T029RQSE6/CQQ50BBNW). ## TLDR Ginkgo builds on Go's `testing` package, allowing expressive [Behavior-Driven Development](https://en.wikipedia.org/wiki/Behavior-driven_development) ("BDD") style tests. It is typically (and optionally) paired with the [Gomega](https://github.com/onsi/gomega) matcher library. ```go Describe("the strings package", func() { Context("strings.Contains()", func() { When("the string contains the substring in the middle", func() { It("returns `true`", func() { Expect(strings.Contains("Ginkgo is awesome", "is")).To(BeTrue()) }) }) }) }) ``` ## Feature List - Ginkgo uses Go's `testing` package and can live alongside your existing `testing` tests. It's easy to [bootstrap](https://onsi.github.io/ginkgo/#bootstrapping-a-suite) and start writing your [first tests](https://onsi.github.io/ginkgo/#adding-specs-to-a-suite) - Ginkgo allows you to write tests in Go using expressive [Behavior-Driven Development](https://en.wikipedia.org/wiki/Behavior-driven_development) ("BDD") style: - Nestable [`Describe`, `Context` and `When` container blocks](https://onsi.github.io/ginkgo/#organizing-specs-with-containers-describe-and-context) - [`BeforeEach` and `AfterEach` blocks](https://onsi.github.io/ginkgo/#extracting-common-setup-beforeeach) for setup and teardown - [`It` and `Specify` blocks](https://onsi.github.io/ginkgo/#individual-specs-it) that hold your assertions - [`JustBeforeEach` blocks](https://onsi.github.io/ginkgo/#separating-creation-and-configuration-justbeforeeach) that separate creation from configuration (also known as the subject action pattern). - [`BeforeSuite` and `AfterSuite` blocks](https://onsi.github.io/ginkgo/#global-setup-and-teardown-beforesuite-and-aftersuite) to prep for and cleanup after a suite. - A comprehensive test runner that lets you: - Mark specs as [pending](https://onsi.github.io/ginkgo/#pending-specs) - [Focus](https://onsi.github.io/ginkgo/#focused-specs) individual specs, and groups of specs, either programmatically or on the command line - Run your tests in [random order](https://onsi.github.io/ginkgo/#spec-permutation), and then reuse random seeds to replicate the same order. - Break up your test suite into parallel processes for straightforward [test parallelization](https://onsi.github.io/ginkgo/#parallel-specs) - `ginkgo`: a command line interface with plenty of handy command line arguments for [running your tests](https://onsi.github.io/ginkgo/#running-tests) and [generating](https://onsi.github.io/ginkgo/#generators) test files. Here are a few choice examples: - `ginkgo -nodes=N` runs your tests in `N` parallel processes and print out coherent output in realtime - `ginkgo -cover` runs your tests using Go's code coverage tool - `ginkgo convert` converts an XUnit-style `testing` package to a Ginkgo-style package - `ginkgo -focus="REGEXP"` and `ginkgo -skip="REGEXP"` allow you to specify a subset of tests to run via regular expression - `ginkgo -r` runs all tests suites under the current directory - `ginkgo -v` prints out identifying information for each tests just before it runs And much more: run `ginkgo help` for details! The `ginkgo` CLI is convenient, but purely optional -- Ginkgo works just fine with `go test` - `ginkgo watch` [watches](https://onsi.github.io/ginkgo/#watching-for-changes) packages *and their dependencies* for changes, then reruns tests. Run tests immediately as you develop! - Built-in support for testing [asynchronicity](https://onsi.github.io/ginkgo/#asynchronous-tests) - Built-in support for [benchmarking](https://onsi.github.io/ginkgo/#benchmark-tests) your code. Control the number of benchmark samples as you gather runtimes and other, arbitrary, bits of numerical information about your code. - [Completions for Sublime Text](https://github.com/onsi/ginkgo-sublime-completions): just use [Package Control](https://sublime.wbond.net/) to install `Ginkgo Completions`. - [Completions for VSCode](https://github.com/onsi/vscode-ginkgo): just use VSCode's extension installer to install `vscode-ginkgo`. - Straightforward support for third-party testing libraries such as [Gomock](https://code.google.com/p/gomock/) and [Testify](https://github.com/stretchr/testify). Check out the [docs](https://onsi.github.io/ginkgo/#third-party-integrations) for details. - A modular architecture that lets you easily: - Write [custom reporters](https://onsi.github.io/ginkgo/#writing-custom-reporters) (for example, Ginkgo comes with a [JUnit XML reporter](https://onsi.github.io/ginkgo/#generating-junit-xml-output) and a TeamCity reporter). - [Adapt an existing matcher library (or write your own!)](https://onsi.github.io/ginkgo/#using-other-matcher-libraries) to work with Ginkgo ## [Gomega](https://github.com/onsi/gomega): Ginkgo's Preferred Matcher Library Ginkgo is best paired with Gomega. Learn more about Gomega [here](https://onsi.github.io/gomega/) ## [Agouti](https://github.com/sclevine/agouti): A Go Acceptance Testing Framework Agouti allows you run WebDriver integration tests. Learn more about Agouti [here](https://agouti.org) ## Getting Started You'll need the Go command-line tools. Follow the [installation instructions](https://golang.org/doc/install) if you don't have it installed. ### Global installation To install the Ginkgo command line interface: ```bash go get -u github.com/onsi/ginkgo/ginkgo ``` Note that this will install it to `$GOBIN`, which will need to be in the `$PATH` (or equivalent). Run `go help install` for more information. ### Go module ["tools package"](https://github.com/golang/go/issues/25922): Create (or update) a file called `tools/tools.go` with the following contents: ```go // +build tools package tools import ( _ "github.com/onsi/ginkgo/ginkgo" ) // This file imports packages that are used when running go generate, or used // during the development process but not otherwise depended on by built code. ``` The Ginkgo command can then be run via `go run github.com/onsi/ginkgo/ginkgo`. This approach allows the version of Ginkgo to be maintained under source control for reproducible results, and is well suited to automated test pipelines. ### Bootstrapping ```bash cd path/to/package/you/want/to/test ginkgo bootstrap # set up a new ginkgo suite ginkgo generate # will create a sample test file. edit this file and add your tests then... go test # to run your tests ginkgo # also runs your tests ``` ## I'm new to Go: What are my testing options? Of course, I heartily recommend [Ginkgo](https://github.com/onsi/ginkgo) and [Gomega](https://github.com/onsi/gomega). Both packages are seeing heavy, daily, production use on a number of projects and boast a mature and comprehensive feature-set. With that said, it's great to know what your options are :) ### What Go gives you out of the box Testing is a first class citizen in Go, however Go's built-in testing primitives are somewhat limited: The [testing](https://golang.org/pkg/testing) package provides basic XUnit style tests and no assertion library. ### Matcher libraries for Go's XUnit style tests A number of matcher libraries have been written to augment Go's built-in XUnit style tests. Here are two that have gained traction: - [testify](https://github.com/stretchr/testify) - [gocheck](https://labix.org/gocheck) You can also use Ginkgo's matcher library [Gomega](https://github.com/onsi/gomega) in [XUnit style tests](https://onsi.github.io/gomega/#using-gomega-with-golangs-xunitstyle-tests) ### BDD style testing frameworks There are a handful of BDD-style testing frameworks written for Go. Here are a few: - [Ginkgo](https://github.com/onsi/ginkgo) ;) - [GoConvey](https://github.com/smartystreets/goconvey) - [Goblin](https://github.com/franela/goblin) - [Mao](https://github.com/azer/mao) - [Zen](https://github.com/pranavraja/zen) Finally, @shageman has [put together](https://github.com/shageman/gotestit) a comprehensive comparison of Go testing libraries. Go explore! ## License Ginkgo is MIT-Licensed ## Contributing See [CONTRIBUTING.md](CONTRIBUTING.md)
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0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/CHANGELOG.md
## 1.15.1 ### Fixes - reporters/junit: Use `system-out` element instead of `passed` (#769) [9eda305] ## 1.15.0 ### Features - Adds 'outline' command to print the outline of specs/containers in a file (#754) [071c369] [6803cc3] [935b538] [06744e8] [0c40583] - Add support for using template to generate tests (#752) [efb9e69] - Add a Chinese Doc #755 (#756) [5207632] - cli: allow multiple -focus and -skip flags (#736) [9a782fb] ### Fixes - Add _internal to filename of tests created with internal flag (#751) [43c12da] ## 1.14.2 ### Fixes - correct handling windows backslash in import path (#721) [97f3d51] - Add additional methods to GinkgoT() to improve compatibility with the testing.TB interface [b5fe44d] ## 1.14.1 ### Fixes - Discard exported method declaration when running ginkgo bootstrap (#558) [f4b0240] ## 1.14.0 ### Features - Defer running top-level container nodes until RunSpecs is called [d44dedf] - [Document Ginkgo lifecycle](http://onsi.github.io/ginkgo/#understanding-ginkgos-lifecycle) - Add `extensions/globals` package (#692) [3295c8f] - this can be helpful in contexts where you are test-driving your test-generation code (see [#692](https://github.com/onsi/ginkgo/pull/692)) - Print Skip reason in JUnit reporter if one was provided [820dfab] ## 1.13.0 ### Features - Add a version of table.Entry that allows dumping the entry parameters. (#689) [21eaef2] ### Fixes - Ensure integration tests pass in an environment sans GOPATH [606fba2] - Add books package (#568) [fc0e44e] - doc(readme): installation via "tools package" (#677) [83bb20e] - Solve the undefined: unix.Dup2 compile error on mips64le (#680) [0624f75] - Import package without dot (#687) [6321024] - Fix integration tests to stop require GOPATH (#686) [a912ec5] ## 1.12.3 ### Fixes - Print correct code location of failing table test (#666) [c6d7afb] ## 1.12.2 ### Fixes - Update dependencies [ea4a036] ## 1.12.1 ### Fixes - Make unfocus ("blur") much faster (#674) [8b18061] - Fix typo (#673) [7fdcbe8] - Test against 1.14 and remove 1.12 [d5c2ad6] - Test if a coverprofile content is empty before checking its latest character (#670) [14d9fa2] - replace tail package with maintained one. this fixes go get errors (#667) [4ba33d4] - improve ginkgo performance - makes progress on #644 [a14f98e] - fix convert integration tests [1f8ba69] - fix typo succesful -> successful (#663) [1ea49cf] - Fix invalid link (#658) [b886136] - convert utility : Include comments from source (#657) [1077c6d] - Explain what BDD means [d79e7fb] - skip race detector test on unsupported platform (#642) [f8ab89d] - Use Dup2 from golang.org/x/sys/unix instead of syscallDup (#638) [5d53c55] - Fix missing newline in combined coverage file (#641) [6a07ea2] - check if a spec is run before returning SpecSummary (#645) [8850000] ## 1.12.0 ### Features - Add module definition (#630) [78916ab] ## 1.11.0 ### Features - Add syscall for riscv64 architecture [f66e896] - teamcity reporter: output location of test failure as well as test definition (#626) [9869142] - teamcity reporter: output newline after every service message (#625) [3cfa02d] - Add support for go module when running `generate` command (#578) [9c89e3f] ## 1.10.3 ### Fixes - Set go_import_path in travis.yml to allow internal packages in forks (#607) [3b721db] - Add integration test [d90e0dc] - Fix coverage files combining [e5dde8c] - A new CLI option: -ginkgo.reportFile <file path> (#601) [034fd25] ## 1.10.2 ### Fixes - speed up table entry generateIt() (#609) [5049dc5] - Fix. Write errors to stderr instead of stdout (#610) [7bb3091] ## 1.10.1 ### Fixes - stack backtrace: fix skipping (#600) [2a4c0bd] ## 1.10.0 ### Fixes - stack backtrace: fix alignment and skipping [66915d6] - fix typo in documentation [8f97b93] ## 1.9.0 ### Features - Option to print output into report, when tests have passed [0545415] ### Fixes - Fixed typos in comments [0ecbc58] - gofmt code [a7f8bfb] - Simplify code [7454d00] - Simplify concatenation, incrementation and function assignment [4825557] - Avoid unnecessary conversions [9d9403c] - JUnit: include more detailed information about panic [19cca4b] - Print help to stdout when the user asks for help [4cb7441] ## 1.8.0 ### New Features - allow config of the vet flag for `go test` (#562) [3cd45fa] - Support projects using go modules [d56ee76] ### Fixes and Minor Improvements - chore(godoc): fixes typos in Measurement funcs [dbaca8e] - Optimize focus to avoid allocations [f493786] - Ensure generated test file names are underscored [505cc35] ## 1.7.0 ### New Features - Add JustAfterEach (#484) [0d4f080] ### Fixes - Correctly round suite time in junit reporter [2445fc1] - Avoid using -i argument to go test for Golang 1.10+ [46bbc26] ## 1.6.0 ### New Features - add --debug flag to emit node output to files (#499) [39febac] ### Fixes - fix: for `go vet` to pass [69338ec] - docs: fix for contributing instructions [7004cb1] - consolidate and streamline contribution docs (#494) [d848015] - Make generated Junit file compatable with "Maven Surefire" (#488) [e51bee6] - all: gofmt [000d317] - Increase eventually timeout to 30s [c73579c] - Clarify asynchronous test behaviour [294d8f4] - Travis badge should only show master [26d2143] ## 1.5.0 5/10/2018 ### New Features - Supports go v1.10 (#443, #446, #451) [e873237, 468e89e, e37dbfe, a37f4c0, c0b857d, bca5260, 4177ca8] - Add a When() synonym for Context() (#386) [747514b, 7484dad, 7354a07, dd826c8] - Re-add noisySkippings flag [652e15c] - Allow coverage to be displayed for focused specs (#367) [11459a8] - Handle -outputdir flag (#364) [228e3a8] - Handle -coverprofile flag (#355) [43392d5] ### Fixes - When using custom reporters register the custom reporters *before* the default reporter. This allows users to see the output of any print statements in their customer reporters. (#365) [8382b23] - When running a test and calculating the coverage using the `-coverprofile` and `-outputdir` flags, Ginkgo fails with an error if the directory does not exist. This is due to an [issue in go 1.10](https://github.com/golang/go/issues/24588) (#446) [b36a6e0] - `unfocus` command ignores vendor folder (#459) [e5e551c, c556e43, a3b6351, 9a820dd] - Ignore packages whose tests are all ignored by go (#456) [7430ca7, 6d8be98] - Increase the threshold when checking time measuments (#455) [2f714bf, 68f622c] - Fix race condition in coverage tests (#423) [a5a8ff7, ab9c08b] - Add an extra new line after reporting spec run completion for test2json [874520d] - added name name field to junit reported testsuite [ae61c63] - Do not set the run time of a spec when the dryRun flag is used (#438) [457e2d9, ba8e856] - Process FWhen and FSpecify when unfocusing (#434) [9008c7b, ee65bd, df87dfe] - Synchronise the access to the state of specs to avoid race conditions (#430) [7d481bc, ae6829d] - Added Duration on GinkgoTestDescription (#383) [5f49dad, 528417e, 0747408, 329d7ed] - Fix Ginkgo stack trace on failure for Specify (#415) [b977ede, 65ca40e, 6c46eb8] - Update README with Go 1.6+, Golang -> Go (#409) [17f6b97, bc14b66, 20d1598] - Use fmt.Errorf instead of errors.New(fmt.Sprintf (#401) [a299f56, 44e2eaa] - Imports in generated code should follow conventions (#398) [0bec0b0, e8536d8] - Prevent data race error when Recording a benchmark value from multiple go routines (#390) [c0c4881, 7a241e9] - Replace GOPATH in Environment [4b883f0] ## 1.4.0 7/16/2017 - `ginkgo` now provides a hint if you accidentally forget to run `ginkgo bootstrap` to generate a `*_suite_test.go` file that actually invokes the Ginkgo test runner. [#345](https://github.com/onsi/ginkgo/pull/345) - thanks to improvements in `go test -c` `ginkgo` no longer needs to fix Go's compilation output to ensure compilation errors are expressed relative to the CWD. [#357] - `ginkgo watch -watchRegExp=...` allows you to specify a custom regular expression to watch. Only files matching the regular expression are watched for changes (the default is `\.go$`) [#356] - `ginkgo` now always emits compilation output. Previously, only failed compilation output was printed out. [#277] - `ginkgo -requireSuite` now fails the test run if there are `*_test.go` files but `go test` fails to detect any tests. Typically this means you forgot to run `ginkgo bootstrap` to generate a suite file. [#344] - `ginkgo -timeout=DURATION` allows you to adjust the timeout for the entire test suite (default is 24 hours) [#248] ## 1.3.0 3/28/2017 Improvements: - Significantly improved parallel test distribution. Now instead of pre-sharding test cases across workers (which can result in idle workers and poor test performance) Ginkgo uses a shared queue to keep all workers busy until all tests are complete. This improves test-time performance and consistency. - `Skip(message)` can be used to skip the current test. - Added `extensions/table` - a Ginkgo DSL for [Table Driven Tests](http://onsi.github.io/ginkgo/#table-driven-tests) - Add `GinkgoRandomSeed()` - shorthand for `config.GinkgoConfig.RandomSeed` - Support for retrying flaky tests with `--flakeAttempts` - `ginkgo ./...` now recurses as you'd expect - Added `Specify` a synonym for `It` - Support colorise on Windows - Broader support for various go compilation flags in the `ginkgo` CLI Bug Fixes: - Ginkgo tests now fail when you `panic(nil)` (#167) ## 1.2.0 5/31/2015 Improvements - `ginkgo -coverpkg` calls down to `go test -coverpkg` (#160) - `ginkgo -afterSuiteHook COMMAND` invokes the passed-in `COMMAND` after a test suite completes (#152) - Relaxed requirement for Go 1.4+. `ginkgo` now works with Go v1.3+ (#166) ## 1.2.0-beta Ginkgo now requires Go 1.4+ Improvements: - Call reporters in reverse order when announcing spec completion -- allows custom reporters to emit output before the default reporter does. - Improved focus behavior. Now, this: ```golang FDescribe("Some describe", func() { It("A", func() {}) FIt("B", func() {}) }) ``` will run `B` but *not* `A`. This tends to be a common usage pattern when in the thick of writing and debugging tests. - When `SIGINT` is received, Ginkgo will emit the contents of the `GinkgoWriter` before running the `AfterSuite`. Useful for debugging stuck tests. - When `--progress` is set, Ginkgo will write test progress (in particular, Ginkgo will say when it is about to run a BeforeEach, AfterEach, It, etc...) to the `GinkgoWriter`. This is useful for debugging stuck tests and tests that generate many logs. - Improved output when an error occurs in a setup or teardown block. - When `--dryRun` is set, Ginkgo will walk the spec tree and emit to its reporter *without* actually running anything. Best paired with `-v` to understand which specs will run in which order. - Add `By` to help document long `It`s. `By` simply writes to the `GinkgoWriter`. - Add support for precompiled tests: - `ginkgo build <path-to-package>` will now compile the package, producing a file named `package.test` - The compiled `package.test` file can be run directly. This runs the tests in series. - To run precompiled tests in parallel, you can run: `ginkgo -p package.test` - Support `bootstrap`ping and `generate`ing [Agouti](http://agouti.org) specs. - `ginkgo generate` and `ginkgo bootstrap` now honor the package name already defined in a given directory - The `ginkgo` CLI ignores `SIGQUIT`. Prevents its stack dump from interlacing with the underlying test suite's stack dump. - The `ginkgo` CLI now compiles tests into a temporary directory instead of the package directory. This necessitates upgrading to Go v1.4+. - `ginkgo -notify` now works on Linux Bug Fixes: - If --skipPackages is used and all packages are skipped, Ginkgo should exit 0. - Fix tempfile leak when running in parallel - Fix incorrect failure message when a panic occurs during a parallel test run - Fixed an issue where a pending test within a focused context (or a focused test within a pending context) would skip all other tests. - Be more consistent about handling SIGTERM as well as SIGINT - When interupted while concurrently compiling test suites in the background, Ginkgo now cleans up the compiled artifacts. - Fixed a long standing bug where `ginkgo -p` would hang if a process spawned by one of the Ginkgo parallel nodes does not exit. (Hooray!) ## 1.1.0 (8/2/2014) No changes, just dropping the beta. ## 1.1.0-beta (7/22/2014) New Features: - `ginkgo watch` now monitors packages *and their dependencies* for changes. The depth of the dependency tree can be modified with the `-depth` flag. - Test suites with a programmatic focus (`FIt`, `FDescribe`, etc...) exit with non-zero status code, even when they pass. This allows CI systems to detect accidental commits of focused test suites. - `ginkgo -p` runs the testsuite in parallel with an auto-detected number of nodes. - `ginkgo -tags=TAG_LIST` passes a list of tags down to the `go build` command. - `ginkgo --failFast` aborts the test suite after the first failure. - `ginkgo generate file_1 file_2` can take multiple file arguments. - Ginkgo now summarizes any spec failures that occurred at the end of the test run. - `ginkgo --randomizeSuites` will run tests *suites* in random order using the generated/passed-in seed. Improvements: - `ginkgo -skipPackage` now takes a comma-separated list of strings. If the *relative path* to a package matches one of the entries in the comma-separated list, that package is skipped. - `ginkgo --untilItFails` no longer recompiles between attempts. - Ginkgo now panics when a runnable node (`It`, `BeforeEach`, `JustBeforeEach`, `AfterEach`, `Measure`) is nested within another runnable node. This is always a mistake. Any test suites that panic because of this change should be fixed. Bug Fixes: - `ginkgo boostrap` and `ginkgo generate` no longer fail when dealing with `hyphen-separated-packages`. - parallel specs are now better distributed across nodes - fixed a crashing bug where (for example) distributing 11 tests across 7 nodes would panic ## 1.0.0 (5/24/2014) New Features: - Add `GinkgoParallelNode()` - shorthand for `config.GinkgoConfig.ParallelNode` Improvements: - When compilation fails, the compilation output is rewritten to present a correct *relative* path. Allows ⌘-clicking in iTerm open the file in your text editor. - `--untilItFails` and `ginkgo watch` now generate new random seeds between test runs, unless a particular random seed is specified. Bug Fixes: - `-cover` now generates a correctly combined coverprofile when running with in parallel with multiple `-node`s. - Print out the contents of the `GinkgoWriter` when `BeforeSuite` or `AfterSuite` fail. - Fix all remaining race conditions in Ginkgo's test suite. ## 1.0.0-beta (4/14/2014) Breaking changes: - `thirdparty/gomocktestreporter` is gone. Use `GinkgoT()` instead - Modified the Reporter interface - `watch` is now a subcommand, not a flag. DSL changes: - `BeforeSuite` and `AfterSuite` for setting up and tearing down test suites. - `AfterSuite` is triggered on interrupt (`^C`) as well as exit. - `SynchronizedBeforeSuite` and `SynchronizedAfterSuite` for setting up and tearing down singleton resources across parallel nodes. CLI changes: - `watch` is now a subcommand, not a flag - `--nodot` flag can be passed to `ginkgo generate` and `ginkgo bootstrap` to avoid dot imports. This explicitly imports all exported identifiers in Ginkgo and Gomega. Refreshing this list can be done by running `ginkgo nodot` - Additional arguments can be passed to specs. Pass them after the `--` separator - `--skipPackage` flag takes a regexp and ignores any packages with package names passing said regexp. - `--trace` flag prints out full stack traces when errors occur, not just the line at which the error occurs. Misc: - Start using semantic versioning - Start maintaining changelog Major refactor: - Pull out Ginkgo's internal to `internal` - Rename `example` everywhere to `spec` - Much more!
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kubeflow_public_repos/fate-operator/vendor/github.com/onsi
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/ginkgo_dsl.go
/* Ginkgo is a BDD-style testing framework for Golang The godoc documentation describes Ginkgo's API. More comprehensive documentation (with examples!) is available at http://onsi.github.io/ginkgo/ Ginkgo's preferred matcher library is [Gomega](http://github.com/onsi/gomega) Ginkgo on Github: http://github.com/onsi/ginkgo Ginkgo is MIT-Licensed */ package ginkgo import ( "flag" "fmt" "io" "net/http" "os" "strings" "time" "github.com/onsi/ginkgo/config" "github.com/onsi/ginkgo/internal/codelocation" "github.com/onsi/ginkgo/internal/global" "github.com/onsi/ginkgo/internal/remote" "github.com/onsi/ginkgo/internal/testingtproxy" "github.com/onsi/ginkgo/internal/writer" "github.com/onsi/ginkgo/reporters" "github.com/onsi/ginkgo/reporters/stenographer" colorable "github.com/onsi/ginkgo/reporters/stenographer/support/go-colorable" "github.com/onsi/ginkgo/types" ) const GINKGO_VERSION = config.VERSION const GINKGO_PANIC = ` Your test failed. Ginkgo panics to prevent subsequent assertions from running. Normally Ginkgo rescues this panic so you shouldn't see it. But, if you make an assertion in a goroutine, Ginkgo can't capture the panic. To circumvent this, you should call defer GinkgoRecover() at the top of the goroutine that caused this panic. ` func init() { config.Flags(flag.CommandLine, "ginkgo", true) GinkgoWriter = writer.New(os.Stdout) } //GinkgoWriter implements an io.Writer //When running in verbose mode any writes to GinkgoWriter will be immediately printed //to stdout. Otherwise, GinkgoWriter will buffer any writes produced during the current test and flush them to screen //only if the current test fails. var GinkgoWriter io.Writer //The interface by which Ginkgo receives *testing.T type GinkgoTestingT interface { Fail() } //GinkgoRandomSeed returns the seed used to randomize spec execution order. It is //useful for seeding your own pseudorandom number generators (PRNGs) to ensure //consistent executions from run to run, where your tests contain variability (for //example, when selecting random test data). func GinkgoRandomSeed() int64 { return config.GinkgoConfig.RandomSeed } //GinkgoParallelNode returns the parallel node number for the current ginkgo process //The node number is 1-indexed func GinkgoParallelNode() int { return config.GinkgoConfig.ParallelNode } //Some matcher libraries or legacy codebases require a *testing.T //GinkgoT implements an interface analogous to *testing.T and can be used if //the library in question accepts *testing.T through an interface // // For example, with testify: // assert.Equal(GinkgoT(), 123, 123, "they should be equal") // // Or with gomock: // gomock.NewController(GinkgoT()) // // GinkgoT() takes an optional offset argument that can be used to get the // correct line number associated with the failure. func GinkgoT(optionalOffset ...int) GinkgoTInterface { offset := 3 if len(optionalOffset) > 0 { offset = optionalOffset[0] } failedFunc := func() bool { return CurrentGinkgoTestDescription().Failed } nameFunc := func() string { return CurrentGinkgoTestDescription().FullTestText } return testingtproxy.New(GinkgoWriter, Fail, Skip, failedFunc, nameFunc, offset) } //The interface returned by GinkgoT(). This covers most of the methods //in the testing package's T. type GinkgoTInterface interface { Cleanup(func()) Error(args ...interface{}) Errorf(format string, args ...interface{}) Fail() FailNow() Failed() bool Fatal(args ...interface{}) Fatalf(format string, args ...interface{}) Helper() Log(args ...interface{}) Logf(format string, args ...interface{}) Name() string Parallel() Skip(args ...interface{}) SkipNow() Skipf(format string, args ...interface{}) Skipped() bool TempDir() string } //Custom Ginkgo test reporters must implement the Reporter interface. // //The custom reporter is passed in a SuiteSummary when the suite begins and ends, //and a SpecSummary just before a spec begins and just after a spec ends type Reporter reporters.Reporter //Asynchronous specs are given a channel of the Done type. You must close or write to the channel //to tell Ginkgo that your async test is done. type Done chan<- interface{} //GinkgoTestDescription represents the information about the current running test returned by CurrentGinkgoTestDescription // FullTestText: a concatenation of ComponentTexts and the TestText // ComponentTexts: a list of all texts for the Describes & Contexts leading up to the current test // TestText: the text in the actual It or Measure node // IsMeasurement: true if the current test is a measurement // FileName: the name of the file containing the current test // LineNumber: the line number for the current test // Failed: if the current test has failed, this will be true (useful in an AfterEach) type GinkgoTestDescription struct { FullTestText string ComponentTexts []string TestText string IsMeasurement bool FileName string LineNumber int Failed bool Duration time.Duration } //CurrentGinkgoTestDescripton returns information about the current running test. func CurrentGinkgoTestDescription() GinkgoTestDescription { summary, ok := global.Suite.CurrentRunningSpecSummary() if !ok { return GinkgoTestDescription{} } subjectCodeLocation := summary.ComponentCodeLocations[len(summary.ComponentCodeLocations)-1] return GinkgoTestDescription{ ComponentTexts: summary.ComponentTexts[1:], FullTestText: strings.Join(summary.ComponentTexts[1:], " "), TestText: summary.ComponentTexts[len(summary.ComponentTexts)-1], IsMeasurement: summary.IsMeasurement, FileName: subjectCodeLocation.FileName, LineNumber: subjectCodeLocation.LineNumber, Failed: summary.HasFailureState(), Duration: summary.RunTime, } } //Measurement tests receive a Benchmarker. // //You use the Time() function to time how long the passed in body function takes to run //You use the RecordValue() function to track arbitrary numerical measurements. //The RecordValueWithPrecision() function can be used alternatively to provide the unit //and resolution of the numeric measurement. //The optional info argument is passed to the test reporter and can be used to // provide the measurement data to a custom reporter with context. // //See http://onsi.github.io/ginkgo/#benchmark_tests for more details type Benchmarker interface { Time(name string, body func(), info ...interface{}) (elapsedTime time.Duration) RecordValue(name string, value float64, info ...interface{}) RecordValueWithPrecision(name string, value float64, units string, precision int, info ...interface{}) } //RunSpecs is the entry point for the Ginkgo test runner. //You must call this within a Golang testing TestX(t *testing.T) function. // //To bootstrap a test suite you can use the Ginkgo CLI: // // ginkgo bootstrap func RunSpecs(t GinkgoTestingT, description string) bool { specReporters := []Reporter{buildDefaultReporter()} if config.DefaultReporterConfig.ReportFile != "" { reportFile := config.DefaultReporterConfig.ReportFile specReporters[0] = reporters.NewJUnitReporter(reportFile) return RunSpecsWithDefaultAndCustomReporters(t, description, specReporters) } return RunSpecsWithCustomReporters(t, description, specReporters) } //To run your tests with Ginkgo's default reporter and your custom reporter(s), replace //RunSpecs() with this method. func RunSpecsWithDefaultAndCustomReporters(t GinkgoTestingT, description string, specReporters []Reporter) bool { specReporters = append(specReporters, buildDefaultReporter()) return RunSpecsWithCustomReporters(t, description, specReporters) } //To run your tests with your custom reporter(s) (and *not* Ginkgo's default reporter), replace //RunSpecs() with this method. Note that parallel tests will not work correctly without the default reporter func RunSpecsWithCustomReporters(t GinkgoTestingT, description string, specReporters []Reporter) bool { writer := GinkgoWriter.(*writer.Writer) writer.SetStream(config.DefaultReporterConfig.Verbose) reporters := make([]reporters.Reporter, len(specReporters)) for i, reporter := range specReporters { reporters[i] = reporter } passed, hasFocusedTests := global.Suite.Run(t, description, reporters, writer, config.GinkgoConfig) if passed && hasFocusedTests && strings.TrimSpace(os.Getenv("GINKGO_EDITOR_INTEGRATION")) == "" { fmt.Println("PASS | FOCUSED") os.Exit(types.GINKGO_FOCUS_EXIT_CODE) } return passed } func buildDefaultReporter() Reporter { remoteReportingServer := config.GinkgoConfig.StreamHost if remoteReportingServer == "" { stenographer := stenographer.New(!config.DefaultReporterConfig.NoColor, config.GinkgoConfig.FlakeAttempts > 1, colorable.NewColorableStdout()) return reporters.NewDefaultReporter(config.DefaultReporterConfig, stenographer) } else { debugFile := "" if config.GinkgoConfig.DebugParallel { debugFile = fmt.Sprintf("ginkgo-node-%d.log", config.GinkgoConfig.ParallelNode) } return remote.NewForwardingReporter(config.DefaultReporterConfig, remoteReportingServer, &http.Client{}, remote.NewOutputInterceptor(), GinkgoWriter.(*writer.Writer), debugFile) } } //Skip notifies Ginkgo that the current spec was skipped. func Skip(message string, callerSkip ...int) { skip := 0 if len(callerSkip) > 0 { skip = callerSkip[0] } global.Failer.Skip(message, codelocation.New(skip+1)) panic(GINKGO_PANIC) } //Fail notifies Ginkgo that the current spec has failed. (Gomega will call Fail for you automatically when an assertion fails.) func Fail(message string, callerSkip ...int) { skip := 0 if len(callerSkip) > 0 { skip = callerSkip[0] } global.Failer.Fail(message, codelocation.New(skip+1)) panic(GINKGO_PANIC) } //GinkgoRecover should be deferred at the top of any spawned goroutine that (may) call `Fail` //Since Gomega assertions call fail, you should throw a `defer GinkgoRecover()` at the top of any goroutine that //calls out to Gomega // //Here's why: Ginkgo's `Fail` method records the failure and then panics to prevent //further assertions from running. This panic must be recovered. Ginkgo does this for you //if the panic originates in a Ginkgo node (an It, BeforeEach, etc...) // //Unfortunately, if a panic originates on a goroutine *launched* from one of these nodes there's no //way for Ginkgo to rescue the panic. To do this, you must remember to `defer GinkgoRecover()` at the top of such a goroutine. func GinkgoRecover() { e := recover() if e != nil { global.Failer.Panic(codelocation.New(1), e) } } //Describe blocks allow you to organize your specs. A Describe block can contain any number of //BeforeEach, AfterEach, JustBeforeEach, It, and Measurement blocks. // //In addition you can nest Describe, Context and When blocks. Describe, Context and When blocks are functionally //equivalent. The difference is purely semantic -- you typically Describe the behavior of an object //or method and, within that Describe, outline a number of Contexts and Whens. func Describe(text string, body func()) bool { global.Suite.PushContainerNode(text, body, types.FlagTypeNone, codelocation.New(1)) return true } //You can focus the tests within a describe block using FDescribe func FDescribe(text string, body func()) bool { global.Suite.PushContainerNode(text, body, types.FlagTypeFocused, codelocation.New(1)) return true } //You can mark the tests within a describe block as pending using PDescribe func PDescribe(text string, body func()) bool { global.Suite.PushContainerNode(text, body, types.FlagTypePending, codelocation.New(1)) return true } //You can mark the tests within a describe block as pending using XDescribe func XDescribe(text string, body func()) bool { global.Suite.PushContainerNode(text, body, types.FlagTypePending, codelocation.New(1)) return true } //Context blocks allow you to organize your specs. A Context block can contain any number of //BeforeEach, AfterEach, JustBeforeEach, It, and Measurement blocks. // //In addition you can nest Describe, Context and When blocks. Describe, Context and When blocks are functionally //equivalent. The difference is purely semantic -- you typical Describe the behavior of an object //or method and, within that Describe, outline a number of Contexts and Whens. func Context(text string, body func()) bool { global.Suite.PushContainerNode(text, body, types.FlagTypeNone, codelocation.New(1)) return true } //You can focus the tests within a describe block using FContext func FContext(text string, body func()) bool { global.Suite.PushContainerNode(text, body, types.FlagTypeFocused, codelocation.New(1)) return true } //You can mark the tests within a describe block as pending using PContext func PContext(text string, body func()) bool { global.Suite.PushContainerNode(text, body, types.FlagTypePending, codelocation.New(1)) return true } //You can mark the tests within a describe block as pending using XContext func XContext(text string, body func()) bool { global.Suite.PushContainerNode(text, body, types.FlagTypePending, codelocation.New(1)) return true } //When blocks allow you to organize your specs. A When block can contain any number of //BeforeEach, AfterEach, JustBeforeEach, It, and Measurement blocks. // //In addition you can nest Describe, Context and When blocks. Describe, Context and When blocks are functionally //equivalent. The difference is purely semantic -- you typical Describe the behavior of an object //or method and, within that Describe, outline a number of Contexts and Whens. func When(text string, body func()) bool { global.Suite.PushContainerNode("when "+text, body, types.FlagTypeNone, codelocation.New(1)) return true } //You can focus the tests within a describe block using FWhen func FWhen(text string, body func()) bool { global.Suite.PushContainerNode("when "+text, body, types.FlagTypeFocused, codelocation.New(1)) return true } //You can mark the tests within a describe block as pending using PWhen func PWhen(text string, body func()) bool { global.Suite.PushContainerNode("when "+text, body, types.FlagTypePending, codelocation.New(1)) return true } //You can mark the tests within a describe block as pending using XWhen func XWhen(text string, body func()) bool { global.Suite.PushContainerNode("when "+text, body, types.FlagTypePending, codelocation.New(1)) return true } //It blocks contain your test code and assertions. You cannot nest any other Ginkgo blocks //within an It block. // //Ginkgo will normally run It blocks synchronously. To perform asynchronous tests, pass a //function that accepts a Done channel. When you do this, you can also provide an optional timeout. func It(text string, body interface{}, timeout ...float64) bool { global.Suite.PushItNode(text, body, types.FlagTypeNone, codelocation.New(1), parseTimeout(timeout...)) return true } //You can focus individual Its using FIt func FIt(text string, body interface{}, timeout ...float64) bool { global.Suite.PushItNode(text, body, types.FlagTypeFocused, codelocation.New(1), parseTimeout(timeout...)) return true } //You can mark Its as pending using PIt func PIt(text string, _ ...interface{}) bool { global.Suite.PushItNode(text, func() {}, types.FlagTypePending, codelocation.New(1), 0) return true } //You can mark Its as pending using XIt func XIt(text string, _ ...interface{}) bool { global.Suite.PushItNode(text, func() {}, types.FlagTypePending, codelocation.New(1), 0) return true } //Specify blocks are aliases for It blocks and allow for more natural wording in situations //which "It" does not fit into a natural sentence flow. All the same protocols apply for Specify blocks //which apply to It blocks. func Specify(text string, body interface{}, timeout ...float64) bool { global.Suite.PushItNode(text, body, types.FlagTypeNone, codelocation.New(1), parseTimeout(timeout...)) return true } //You can focus individual Specifys using FSpecify func FSpecify(text string, body interface{}, timeout ...float64) bool { global.Suite.PushItNode(text, body, types.FlagTypeFocused, codelocation.New(1), parseTimeout(timeout...)) return true } //You can mark Specifys as pending using PSpecify func PSpecify(text string, is ...interface{}) bool { global.Suite.PushItNode(text, func() {}, types.FlagTypePending, codelocation.New(1), 0) return true } //You can mark Specifys as pending using XSpecify func XSpecify(text string, is ...interface{}) bool { global.Suite.PushItNode(text, func() {}, types.FlagTypePending, codelocation.New(1), 0) return true } //By allows you to better document large Its. // //Generally you should try to keep your Its short and to the point. This is not always possible, however, //especially in the context of integration tests that capture a particular workflow. // //By allows you to document such flows. By must be called within a runnable node (It, BeforeEach, Measure, etc...) //By will simply log the passed in text to the GinkgoWriter. If By is handed a function it will immediately run the function. func By(text string, callbacks ...func()) { preamble := "\x1b[1mSTEP\x1b[0m" if config.DefaultReporterConfig.NoColor { preamble = "STEP" } fmt.Fprintln(GinkgoWriter, preamble+": "+text) if len(callbacks) == 1 { callbacks[0]() } if len(callbacks) > 1 { panic("just one callback per By, please") } } //Measure blocks run the passed in body function repeatedly (determined by the samples argument) //and accumulate metrics provided to the Benchmarker by the body function. // //The body function must have the signature: // func(b Benchmarker) func Measure(text string, body interface{}, samples int) bool { global.Suite.PushMeasureNode(text, body, types.FlagTypeNone, codelocation.New(1), samples) return true } //You can focus individual Measures using FMeasure func FMeasure(text string, body interface{}, samples int) bool { global.Suite.PushMeasureNode(text, body, types.FlagTypeFocused, codelocation.New(1), samples) return true } //You can mark Measurements as pending using PMeasure func PMeasure(text string, _ ...interface{}) bool { global.Suite.PushMeasureNode(text, func(b Benchmarker) {}, types.FlagTypePending, codelocation.New(1), 0) return true } //You can mark Measurements as pending using XMeasure func XMeasure(text string, _ ...interface{}) bool { global.Suite.PushMeasureNode(text, func(b Benchmarker) {}, types.FlagTypePending, codelocation.New(1), 0) return true } //BeforeSuite blocks are run just once before any specs are run. When running in parallel, each //parallel node process will call BeforeSuite. // //BeforeSuite blocks can be made asynchronous by providing a body function that accepts a Done channel // //You may only register *one* BeforeSuite handler per test suite. You typically do so in your bootstrap file at the top level. func BeforeSuite(body interface{}, timeout ...float64) bool { global.Suite.SetBeforeSuiteNode(body, codelocation.New(1), parseTimeout(timeout...)) return true } //AfterSuite blocks are *always* run after all the specs regardless of whether specs have passed or failed. //Moreover, if Ginkgo receives an interrupt signal (^C) it will attempt to run the AfterSuite before exiting. // //When running in parallel, each parallel node process will call AfterSuite. // //AfterSuite blocks can be made asynchronous by providing a body function that accepts a Done channel // //You may only register *one* AfterSuite handler per test suite. You typically do so in your bootstrap file at the top level. func AfterSuite(body interface{}, timeout ...float64) bool { global.Suite.SetAfterSuiteNode(body, codelocation.New(1), parseTimeout(timeout...)) return true } //SynchronizedBeforeSuite blocks are primarily meant to solve the problem of setting up singleton external resources shared across //nodes when running tests in parallel. For example, say you have a shared database that you can only start one instance of that //must be used in your tests. When running in parallel, only one node should set up the database and all other nodes should wait //until that node is done before running. // //SynchronizedBeforeSuite accomplishes this by taking *two* function arguments. The first is only run on parallel node #1. The second is //run on all nodes, but *only* after the first function completes successfully. Ginkgo also makes it possible to send data from the first function (on Node 1) //to the second function (on all the other nodes). // //The functions have the following signatures. The first function (which only runs on node 1) has the signature: // // func() []byte // //or, to run asynchronously: // // func(done Done) []byte // //The byte array returned by the first function is then passed to the second function, which has the signature: // // func(data []byte) // //or, to run asynchronously: // // func(data []byte, done Done) // //Here's a simple pseudo-code example that starts a shared database on Node 1 and shares the database's address with the other nodes: // // var dbClient db.Client // var dbRunner db.Runner // // var _ = SynchronizedBeforeSuite(func() []byte { // dbRunner = db.NewRunner() // err := dbRunner.Start() // Ω(err).ShouldNot(HaveOccurred()) // return []byte(dbRunner.URL) // }, func(data []byte) { // dbClient = db.NewClient() // err := dbClient.Connect(string(data)) // Ω(err).ShouldNot(HaveOccurred()) // }) func SynchronizedBeforeSuite(node1Body interface{}, allNodesBody interface{}, timeout ...float64) bool { global.Suite.SetSynchronizedBeforeSuiteNode( node1Body, allNodesBody, codelocation.New(1), parseTimeout(timeout...), ) return true } //SynchronizedAfterSuite blocks complement the SynchronizedBeforeSuite blocks in solving the problem of setting up //external singleton resources shared across nodes when running tests in parallel. // //SynchronizedAfterSuite accomplishes this by taking *two* function arguments. The first runs on all nodes. The second runs only on parallel node #1 //and *only* after all other nodes have finished and exited. This ensures that node 1, and any resources it is running, remain alive until //all other nodes are finished. // //Both functions have the same signature: either func() or func(done Done) to run asynchronously. // //Here's a pseudo-code example that complements that given in SynchronizedBeforeSuite. Here, SynchronizedAfterSuite is used to tear down the shared database //only after all nodes have finished: // // var _ = SynchronizedAfterSuite(func() { // dbClient.Cleanup() // }, func() { // dbRunner.Stop() // }) func SynchronizedAfterSuite(allNodesBody interface{}, node1Body interface{}, timeout ...float64) bool { global.Suite.SetSynchronizedAfterSuiteNode( allNodesBody, node1Body, codelocation.New(1), parseTimeout(timeout...), ) return true } //BeforeEach blocks are run before It blocks. When multiple BeforeEach blocks are defined in nested //Describe and Context blocks the outermost BeforeEach blocks are run first. // //Like It blocks, BeforeEach blocks can be made asynchronous by providing a body function that accepts //a Done channel func BeforeEach(body interface{}, timeout ...float64) bool { global.Suite.PushBeforeEachNode(body, codelocation.New(1), parseTimeout(timeout...)) return true } //JustBeforeEach blocks are run before It blocks but *after* all BeforeEach blocks. For more details, //read the [documentation](http://onsi.github.io/ginkgo/#separating_creation_and_configuration_) // //Like It blocks, BeforeEach blocks can be made asynchronous by providing a body function that accepts //a Done channel func JustBeforeEach(body interface{}, timeout ...float64) bool { global.Suite.PushJustBeforeEachNode(body, codelocation.New(1), parseTimeout(timeout...)) return true } //JustAfterEach blocks are run after It blocks but *before* all AfterEach blocks. For more details, //read the [documentation](http://onsi.github.io/ginkgo/#separating_creation_and_configuration_) // //Like It blocks, JustAfterEach blocks can be made asynchronous by providing a body function that accepts //a Done channel func JustAfterEach(body interface{}, timeout ...float64) bool { global.Suite.PushJustAfterEachNode(body, codelocation.New(1), parseTimeout(timeout...)) return true } //AfterEach blocks are run after It blocks. When multiple AfterEach blocks are defined in nested //Describe and Context blocks the innermost AfterEach blocks are run first. // //Like It blocks, AfterEach blocks can be made asynchronous by providing a body function that accepts //a Done channel func AfterEach(body interface{}, timeout ...float64) bool { global.Suite.PushAfterEachNode(body, codelocation.New(1), parseTimeout(timeout...)) return true } func parseTimeout(timeout ...float64) time.Duration { if len(timeout) == 0 { return global.DefaultTimeout } else { return time.Duration(timeout[0] * float64(time.Second)) } }
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kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/LICENSE
Copyright (c) 2013-2014 Onsi Fakhouri Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/CONTRIBUTING.md
# Contributing to Ginkgo Your contributions to Ginkgo are essential for its long-term maintenance and improvement. - Please **open an issue first** - describe what problem you are trying to solve and give the community a forum for input and feedback ahead of investing time in writing code! - Ensure adequate test coverage: - When adding to the Ginkgo library, add unit and/or integration tests (under the `integration` folder). - When adding to the Ginkgo CLI, note that there are very few unit tests. Please add an integration test. - Update the documentation. Ginko uses `godoc` comments and documentation on the `gh-pages` branch. If relevant, please submit a docs PR to that branch alongside your code PR. Thanks for supporting Ginkgo! ## Setup Fork the repo, then: ``` go get github.com/onsi/ginkgo go get github.com/onsi/gomega/... cd $GOPATH/src/github.com/onsi/ginkgo git remote add fork [email protected]:<NAME>/ginkgo.git ginkgo -r -p # ensure tests are green go vet ./... # ensure linter is happy ``` ## Making the PR - go to a new branch `git checkout -b my-feature` - make your changes - run tests and linter again (see above) - `git push fork` - open PR 🎉
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kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/go.sum
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h1:n7NCudcB/nEzxVGmLbDWY5pfWTLqBcC2KZ6jyYvM4mQ= golang.org/x/tools v0.0.0-20191119224855-298f0cb1881e/go.mod h1:b+2E5dAYhXwXZwtnZ6UAqBI28+e2cm9otk0dWdXHAEo= golang.org/x/tools v0.0.0-20201224043029-2b0845dc783e h1:4nW4NLDYnU28ojHaHO8OVxFHk/aQ33U01a9cjED+pzE= golang.org/x/tools v0.0.0-20201224043029-2b0845dc783e/go.mod h1:emZCQorbCU4vsT4fOWvOPXz4eW1wZW4PmDk9uLelYpA= golang.org/x/xerrors v0.0.0-20190717185122-a985d3407aa7/go.mod h1:I/5z698sn9Ka8TeJc9MKroUUfqBBauWjQqLJ2OPfmY0= golang.org/x/xerrors v0.0.0-20191011141410-1b5146add898/go.mod h1:I/5z698sn9Ka8TeJc9MKroUUfqBBauWjQqLJ2OPfmY0= golang.org/x/xerrors v0.0.0-20191204190536-9bdfabe68543/go.mod h1:I/5z698sn9Ka8TeJc9MKroUUfqBBauWjQqLJ2OPfmY0= golang.org/x/xerrors v0.0.0-20200804184101-5ec99f83aff1 h1:go1bK/D/BFZV2I8cIQd1NKEZ+0owSTG1fDTci4IqFcE= golang.org/x/xerrors v0.0.0-20200804184101-5ec99f83aff1/go.mod h1:I/5z698sn9Ka8TeJc9MKroUUfqBBauWjQqLJ2OPfmY0= google.golang.org/protobuf v0.0.0-20200109180630-ec00e32a8dfd/go.mod h1:DFci5gLYBciE7Vtevhsrf46CRTquxDuWsQurQQe4oz8= google.golang.org/protobuf v0.0.0-20200221191635-4d8936d0db64/go.mod h1:kwYJMbMJ01Woi6D6+Kah6886xMZcty6N08ah7+eCXa0= google.golang.org/protobuf v0.0.0-20200228230310-ab0ca4ff8a60/go.mod h1:cfTl7dwQJ+fmap5saPgwCLgHXTUD7jkjRqWcaiX5VyM= google.golang.org/protobuf v1.20.1-0.20200309200217-e05f789c0967/go.mod h1:A+miEFZTKqfCUM6K7xSMQL9OKL/b6hQv+e19PK+JZNE= google.golang.org/protobuf v1.21.0/go.mod h1:47Nbq4nVaFHyn7ilMalzfO3qCViNmqZ2kzikPIcrTAo= google.golang.org/protobuf v1.23.0 h1:4MY060fB1DLGMB/7MBTLnwQUY6+F09GEiz6SsrNqyzM= google.golang.org/protobuf v1.23.0/go.mod h1:EGpADcykh3NcUnDUJcl1+ZksZNG86OlYog2l/sGQquU= gopkg.in/check.v1 v0.0.0-20161208181325-20d25e280405 h1:yhCVgyC4o1eVCa2tZl7eS0r+SDo693bJlVdllGtEeKM= gopkg.in/check.v1 v0.0.0-20161208181325-20d25e280405/go.mod h1:Co6ibVJAznAaIkqp8huTwlJQCZ016jof/cbN4VW5Yz0= gopkg.in/fsnotify.v1 v1.4.7/go.mod h1:Tz8NjZHkW78fSQdbUxIjBTcgA1z1m8ZHf0WmKUhAMys= gopkg.in/tomb.v1 v1.0.0-20141024135613-dd632973f1e7 h1:uRGJdciOHaEIrze2W8Q3AKkepLTh2hOroT7a+7czfdQ= gopkg.in/tomb.v1 v1.0.0-20141024135613-dd632973f1e7/go.mod h1:dt/ZhP58zS4L8KSrWDmTeBkI65Dw0HsyUHuEVlX15mw= gopkg.in/yaml.v2 v2.2.4/go.mod h1:hI93XBmqTisBFMUTm0b8Fm+jr3Dg1NNxqwp+5A1VGuI= gopkg.in/yaml.v2 v2.3.0 h1:clyUAQHOM3G0M3f5vQj7LuJrETvjVot3Z5el9nffUtU= gopkg.in/yaml.v2 v2.3.0/go.mod h1:hI93XBmqTisBFMUTm0b8Fm+jr3Dg1NNxqwp+5A1VGuI=
9,166
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kubeflow_public_repos/fate-operator/vendor/github.com/onsi
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/.travis.yml
language: go go: - tip - 1.16.x - 1.15.x cache: directories: - $GOPATH/pkg/mod # allow internal package imports, necessary for forked repositories go_import_path: github.com/onsi/ginkgo install: - GO111MODULE="off" go get -v -t ./... - GO111MODULE="off" go get golang.org/x/tools/cmd/cover - GO111MODULE="off" go get github.com/onsi/gomega - GO111MODULE="off" go install github.com/onsi/ginkgo/ginkgo - export PATH=$GOPATH/bin:$PATH script: - GO111MODULE="on" go mod tidy && git diff --exit-code go.mod go.sum - go vet - ginkgo -r --randomizeAllSpecs --randomizeSuites --race --trace
9,167
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kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/containernode/container_node.go
package containernode import ( "math/rand" "sort" "github.com/onsi/ginkgo/internal/leafnodes" "github.com/onsi/ginkgo/types" ) type subjectOrContainerNode struct { containerNode *ContainerNode subjectNode leafnodes.SubjectNode } func (n subjectOrContainerNode) text() string { if n.containerNode != nil { return n.containerNode.Text() } else { return n.subjectNode.Text() } } type CollatedNodes struct { Containers []*ContainerNode Subject leafnodes.SubjectNode } type ContainerNode struct { text string flag types.FlagType codeLocation types.CodeLocation setupNodes []leafnodes.BasicNode subjectAndContainerNodes []subjectOrContainerNode } func New(text string, flag types.FlagType, codeLocation types.CodeLocation) *ContainerNode { return &ContainerNode{ text: text, flag: flag, codeLocation: codeLocation, } } func (container *ContainerNode) Shuffle(r *rand.Rand) { sort.Sort(container) permutation := r.Perm(len(container.subjectAndContainerNodes)) shuffledNodes := make([]subjectOrContainerNode, len(container.subjectAndContainerNodes)) for i, j := range permutation { shuffledNodes[i] = container.subjectAndContainerNodes[j] } container.subjectAndContainerNodes = shuffledNodes } func (node *ContainerNode) BackPropagateProgrammaticFocus() bool { if node.flag == types.FlagTypePending { return false } shouldUnfocus := false for _, subjectOrContainerNode := range node.subjectAndContainerNodes { if subjectOrContainerNode.containerNode != nil { shouldUnfocus = subjectOrContainerNode.containerNode.BackPropagateProgrammaticFocus() || shouldUnfocus } else { shouldUnfocus = (subjectOrContainerNode.subjectNode.Flag() == types.FlagTypeFocused) || shouldUnfocus } } if shouldUnfocus { if node.flag == types.FlagTypeFocused { node.flag = types.FlagTypeNone } return true } return node.flag == types.FlagTypeFocused } func (node *ContainerNode) Collate() []CollatedNodes { return node.collate([]*ContainerNode{}) } func (node *ContainerNode) collate(enclosingContainers []*ContainerNode) []CollatedNodes { collated := make([]CollatedNodes, 0) containers := make([]*ContainerNode, len(enclosingContainers)) copy(containers, enclosingContainers) containers = append(containers, node) for _, subjectOrContainer := range node.subjectAndContainerNodes { if subjectOrContainer.containerNode != nil { collated = append(collated, subjectOrContainer.containerNode.collate(containers)...) } else { collated = append(collated, CollatedNodes{ Containers: containers, Subject: subjectOrContainer.subjectNode, }) } } return collated } func (node *ContainerNode) PushContainerNode(container *ContainerNode) { node.subjectAndContainerNodes = append(node.subjectAndContainerNodes, subjectOrContainerNode{containerNode: container}) } func (node *ContainerNode) PushSubjectNode(subject leafnodes.SubjectNode) { node.subjectAndContainerNodes = append(node.subjectAndContainerNodes, subjectOrContainerNode{subjectNode: subject}) } func (node *ContainerNode) PushSetupNode(setupNode leafnodes.BasicNode) { node.setupNodes = append(node.setupNodes, setupNode) } func (node *ContainerNode) SetupNodesOfType(nodeType types.SpecComponentType) []leafnodes.BasicNode { nodes := []leafnodes.BasicNode{} for _, setupNode := range node.setupNodes { if setupNode.Type() == nodeType { nodes = append(nodes, setupNode) } } return nodes } func (node *ContainerNode) Text() string { return node.text } func (node *ContainerNode) CodeLocation() types.CodeLocation { return node.codeLocation } func (node *ContainerNode) Flag() types.FlagType { return node.flag } //sort.Interface func (node *ContainerNode) Len() int { return len(node.subjectAndContainerNodes) } func (node *ContainerNode) Less(i, j int) bool { return node.subjectAndContainerNodes[i].text() < node.subjectAndContainerNodes[j].text() } func (node *ContainerNode) Swap(i, j int) { node.subjectAndContainerNodes[i], node.subjectAndContainerNodes[j] = node.subjectAndContainerNodes[j], node.subjectAndContainerNodes[i] }
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kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/failer/failer.go
package failer import ( "fmt" "sync" "github.com/onsi/ginkgo/types" ) type Failer struct { lock *sync.Mutex failure types.SpecFailure state types.SpecState } func New() *Failer { return &Failer{ lock: &sync.Mutex{}, state: types.SpecStatePassed, } } func (f *Failer) Panic(location types.CodeLocation, forwardedPanic interface{}) { f.lock.Lock() defer f.lock.Unlock() if f.state == types.SpecStatePassed { f.state = types.SpecStatePanicked f.failure = types.SpecFailure{ Message: "Test Panicked", Location: location, ForwardedPanic: fmt.Sprintf("%v", forwardedPanic), } } } func (f *Failer) Timeout(location types.CodeLocation) { f.lock.Lock() defer f.lock.Unlock() if f.state == types.SpecStatePassed { f.state = types.SpecStateTimedOut f.failure = types.SpecFailure{ Message: "Timed out", Location: location, } } } func (f *Failer) Fail(message string, location types.CodeLocation) { f.lock.Lock() defer f.lock.Unlock() if f.state == types.SpecStatePassed { f.state = types.SpecStateFailed f.failure = types.SpecFailure{ Message: message, Location: location, } } } func (f *Failer) Drain(componentType types.SpecComponentType, componentIndex int, componentCodeLocation types.CodeLocation) (types.SpecFailure, types.SpecState) { f.lock.Lock() defer f.lock.Unlock() failure := f.failure outcome := f.state if outcome != types.SpecStatePassed { failure.ComponentType = componentType failure.ComponentIndex = componentIndex failure.ComponentCodeLocation = componentCodeLocation } f.state = types.SpecStatePassed f.failure = types.SpecFailure{} return failure, outcome } func (f *Failer) Skip(message string, location types.CodeLocation) { f.lock.Lock() defer f.lock.Unlock() if f.state == types.SpecStatePassed { f.state = types.SpecStateSkipped f.failure = types.SpecFailure{ Message: message, Location: location, } } }
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kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/remote/server.go
/* The remote package provides the pieces to allow Ginkgo test suites to report to remote listeners. This is used, primarily, to enable streaming parallel test output but has, in principal, broader applications (e.g. streaming test output to a browser). */ package remote import ( "encoding/json" "io/ioutil" "net" "net/http" "sync" "github.com/onsi/ginkgo/internal/spec_iterator" "github.com/onsi/ginkgo/config" "github.com/onsi/ginkgo/reporters" "github.com/onsi/ginkgo/types" ) /* Server spins up on an automatically selected port and listens for communication from the forwarding reporter. It then forwards that communication to attached reporters. */ type Server struct { listener net.Listener reporters []reporters.Reporter alives []func() bool lock *sync.Mutex beforeSuiteData types.RemoteBeforeSuiteData parallelTotal int counter int } //Create a new server, automatically selecting a port func NewServer(parallelTotal int) (*Server, error) { listener, err := net.Listen("tcp", "127.0.0.1:0") if err != nil { return nil, err } return &Server{ listener: listener, lock: &sync.Mutex{}, alives: make([]func() bool, parallelTotal), beforeSuiteData: types.RemoteBeforeSuiteData{Data: nil, State: types.RemoteBeforeSuiteStatePending}, parallelTotal: parallelTotal, }, nil } //Start the server. You don't need to `go s.Start()`, just `s.Start()` func (server *Server) Start() { httpServer := &http.Server{} mux := http.NewServeMux() httpServer.Handler = mux //streaming endpoints mux.HandleFunc("/SpecSuiteWillBegin", server.specSuiteWillBegin) mux.HandleFunc("/BeforeSuiteDidRun", server.beforeSuiteDidRun) mux.HandleFunc("/AfterSuiteDidRun", server.afterSuiteDidRun) mux.HandleFunc("/SpecWillRun", server.specWillRun) mux.HandleFunc("/SpecDidComplete", server.specDidComplete) mux.HandleFunc("/SpecSuiteDidEnd", server.specSuiteDidEnd) //synchronization endpoints mux.HandleFunc("/BeforeSuiteState", server.handleBeforeSuiteState) mux.HandleFunc("/RemoteAfterSuiteData", server.handleRemoteAfterSuiteData) mux.HandleFunc("/counter", server.handleCounter) mux.HandleFunc("/has-counter", server.handleHasCounter) //for backward compatibility go httpServer.Serve(server.listener) } //Stop the server func (server *Server) Close() { server.listener.Close() } //The address the server can be reached it. Pass this into the `ForwardingReporter`. func (server *Server) Address() string { return "http://" + server.listener.Addr().String() } // // Streaming Endpoints // //The server will forward all received messages to Ginkgo reporters registered with `RegisterReporters` func (server *Server) readAll(request *http.Request) []byte { defer request.Body.Close() body, _ := ioutil.ReadAll(request.Body) return body } func (server *Server) RegisterReporters(reporters ...reporters.Reporter) { server.reporters = reporters } func (server *Server) specSuiteWillBegin(writer http.ResponseWriter, request *http.Request) { body := server.readAll(request) var data struct { Config config.GinkgoConfigType `json:"config"` Summary *types.SuiteSummary `json:"suite-summary"` } json.Unmarshal(body, &data) for _, reporter := range server.reporters { reporter.SpecSuiteWillBegin(data.Config, data.Summary) } } func (server *Server) beforeSuiteDidRun(writer http.ResponseWriter, request *http.Request) { body := server.readAll(request) var setupSummary *types.SetupSummary json.Unmarshal(body, &setupSummary) for _, reporter := range server.reporters { reporter.BeforeSuiteDidRun(setupSummary) } } func (server *Server) afterSuiteDidRun(writer http.ResponseWriter, request *http.Request) { body := server.readAll(request) var setupSummary *types.SetupSummary json.Unmarshal(body, &setupSummary) for _, reporter := range server.reporters { reporter.AfterSuiteDidRun(setupSummary) } } func (server *Server) specWillRun(writer http.ResponseWriter, request *http.Request) { body := server.readAll(request) var specSummary *types.SpecSummary json.Unmarshal(body, &specSummary) for _, reporter := range server.reporters { reporter.SpecWillRun(specSummary) } } func (server *Server) specDidComplete(writer http.ResponseWriter, request *http.Request) { body := server.readAll(request) var specSummary *types.SpecSummary json.Unmarshal(body, &specSummary) for _, reporter := range server.reporters { reporter.SpecDidComplete(specSummary) } } func (server *Server) specSuiteDidEnd(writer http.ResponseWriter, request *http.Request) { body := server.readAll(request) var suiteSummary *types.SuiteSummary json.Unmarshal(body, &suiteSummary) for _, reporter := range server.reporters { reporter.SpecSuiteDidEnd(suiteSummary) } } // // Synchronization Endpoints // func (server *Server) RegisterAlive(node int, alive func() bool) { server.lock.Lock() defer server.lock.Unlock() server.alives[node-1] = alive } func (server *Server) nodeIsAlive(node int) bool { server.lock.Lock() defer server.lock.Unlock() alive := server.alives[node-1] if alive == nil { return true } return alive() } func (server *Server) handleBeforeSuiteState(writer http.ResponseWriter, request *http.Request) { if request.Method == "POST" { dec := json.NewDecoder(request.Body) dec.Decode(&(server.beforeSuiteData)) } else { beforeSuiteData := server.beforeSuiteData if beforeSuiteData.State == types.RemoteBeforeSuiteStatePending && !server.nodeIsAlive(1) { beforeSuiteData.State = types.RemoteBeforeSuiteStateDisappeared } enc := json.NewEncoder(writer) enc.Encode(beforeSuiteData) } } func (server *Server) handleRemoteAfterSuiteData(writer http.ResponseWriter, request *http.Request) { afterSuiteData := types.RemoteAfterSuiteData{ CanRun: true, } for i := 2; i <= server.parallelTotal; i++ { afterSuiteData.CanRun = afterSuiteData.CanRun && !server.nodeIsAlive(i) } enc := json.NewEncoder(writer) enc.Encode(afterSuiteData) } func (server *Server) handleCounter(writer http.ResponseWriter, request *http.Request) { c := spec_iterator.Counter{} server.lock.Lock() c.Index = server.counter server.counter++ server.lock.Unlock() json.NewEncoder(writer).Encode(c) } func (server *Server) handleHasCounter(writer http.ResponseWriter, request *http.Request) { writer.Write([]byte("")) }
9,170
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/remote/output_interceptor.go
package remote import "os" /* The OutputInterceptor is used by the ForwardingReporter to intercept and capture all stdin and stderr output during a test run. */ type OutputInterceptor interface { StartInterceptingOutput() error StopInterceptingAndReturnOutput() (string, error) StreamTo(*os.File) }
9,171
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kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/remote/output_interceptor_win.go
// +build windows package remote import ( "errors" "os" ) func NewOutputInterceptor() OutputInterceptor { return &outputInterceptor{} } type outputInterceptor struct { intercepting bool } func (interceptor *outputInterceptor) StartInterceptingOutput() error { if interceptor.intercepting { return errors.New("Already intercepting output!") } interceptor.intercepting = true // not working on windows... return nil } func (interceptor *outputInterceptor) StopInterceptingAndReturnOutput() (string, error) { // not working on windows... interceptor.intercepting = false return "", nil } func (interceptor *outputInterceptor) StreamTo(*os.File) {}
9,172
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/remote/aggregator.go
/* Aggregator is a reporter used by the Ginkgo CLI to aggregate and present parallel test output coherently as tests complete. You shouldn't need to use this in your code. To run tests in parallel: ginkgo -nodes=N where N is the number of nodes you desire. */ package remote import ( "time" "github.com/onsi/ginkgo/config" "github.com/onsi/ginkgo/reporters/stenographer" "github.com/onsi/ginkgo/types" ) type configAndSuite struct { config config.GinkgoConfigType summary *types.SuiteSummary } type Aggregator struct { nodeCount int config config.DefaultReporterConfigType stenographer stenographer.Stenographer result chan bool suiteBeginnings chan configAndSuite aggregatedSuiteBeginnings []configAndSuite beforeSuites chan *types.SetupSummary aggregatedBeforeSuites []*types.SetupSummary afterSuites chan *types.SetupSummary aggregatedAfterSuites []*types.SetupSummary specCompletions chan *types.SpecSummary completedSpecs []*types.SpecSummary suiteEndings chan *types.SuiteSummary aggregatedSuiteEndings []*types.SuiteSummary specs []*types.SpecSummary startTime time.Time } func NewAggregator(nodeCount int, result chan bool, config config.DefaultReporterConfigType, stenographer stenographer.Stenographer) *Aggregator { aggregator := &Aggregator{ nodeCount: nodeCount, result: result, config: config, stenographer: stenographer, suiteBeginnings: make(chan configAndSuite), beforeSuites: make(chan *types.SetupSummary), afterSuites: make(chan *types.SetupSummary), specCompletions: make(chan *types.SpecSummary), suiteEndings: make(chan *types.SuiteSummary), } go aggregator.mux() return aggregator } func (aggregator *Aggregator) SpecSuiteWillBegin(config config.GinkgoConfigType, summary *types.SuiteSummary) { aggregator.suiteBeginnings <- configAndSuite{config, summary} } func (aggregator *Aggregator) BeforeSuiteDidRun(setupSummary *types.SetupSummary) { aggregator.beforeSuites <- setupSummary } func (aggregator *Aggregator) AfterSuiteDidRun(setupSummary *types.SetupSummary) { aggregator.afterSuites <- setupSummary } func (aggregator *Aggregator) SpecWillRun(specSummary *types.SpecSummary) { //noop } func (aggregator *Aggregator) SpecDidComplete(specSummary *types.SpecSummary) { aggregator.specCompletions <- specSummary } func (aggregator *Aggregator) SpecSuiteDidEnd(summary *types.SuiteSummary) { aggregator.suiteEndings <- summary } func (aggregator *Aggregator) mux() { loop: for { select { case configAndSuite := <-aggregator.suiteBeginnings: aggregator.registerSuiteBeginning(configAndSuite) case setupSummary := <-aggregator.beforeSuites: aggregator.registerBeforeSuite(setupSummary) case setupSummary := <-aggregator.afterSuites: aggregator.registerAfterSuite(setupSummary) case specSummary := <-aggregator.specCompletions: aggregator.registerSpecCompletion(specSummary) case suite := <-aggregator.suiteEndings: finished, passed := aggregator.registerSuiteEnding(suite) if finished { aggregator.result <- passed break loop } } } } func (aggregator *Aggregator) registerSuiteBeginning(configAndSuite configAndSuite) { aggregator.aggregatedSuiteBeginnings = append(aggregator.aggregatedSuiteBeginnings, configAndSuite) if len(aggregator.aggregatedSuiteBeginnings) == 1 { aggregator.startTime = time.Now() } if len(aggregator.aggregatedSuiteBeginnings) != aggregator.nodeCount { return } aggregator.stenographer.AnnounceSuite(configAndSuite.summary.SuiteDescription, configAndSuite.config.RandomSeed, configAndSuite.config.RandomizeAllSpecs, aggregator.config.Succinct) totalNumberOfSpecs := 0 if len(aggregator.aggregatedSuiteBeginnings) > 0 { totalNumberOfSpecs = configAndSuite.summary.NumberOfSpecsBeforeParallelization } aggregator.stenographer.AnnounceTotalNumberOfSpecs(totalNumberOfSpecs, aggregator.config.Succinct) aggregator.stenographer.AnnounceAggregatedParallelRun(aggregator.nodeCount, aggregator.config.Succinct) aggregator.flushCompletedSpecs() } func (aggregator *Aggregator) registerBeforeSuite(setupSummary *types.SetupSummary) { aggregator.aggregatedBeforeSuites = append(aggregator.aggregatedBeforeSuites, setupSummary) aggregator.flushCompletedSpecs() } func (aggregator *Aggregator) registerAfterSuite(setupSummary *types.SetupSummary) { aggregator.aggregatedAfterSuites = append(aggregator.aggregatedAfterSuites, setupSummary) aggregator.flushCompletedSpecs() } func (aggregator *Aggregator) registerSpecCompletion(specSummary *types.SpecSummary) { aggregator.completedSpecs = append(aggregator.completedSpecs, specSummary) aggregator.specs = append(aggregator.specs, specSummary) aggregator.flushCompletedSpecs() } func (aggregator *Aggregator) flushCompletedSpecs() { if len(aggregator.aggregatedSuiteBeginnings) != aggregator.nodeCount { return } for _, setupSummary := range aggregator.aggregatedBeforeSuites { aggregator.announceBeforeSuite(setupSummary) } for _, specSummary := range aggregator.completedSpecs { aggregator.announceSpec(specSummary) } for _, setupSummary := range aggregator.aggregatedAfterSuites { aggregator.announceAfterSuite(setupSummary) } aggregator.aggregatedBeforeSuites = []*types.SetupSummary{} aggregator.completedSpecs = []*types.SpecSummary{} aggregator.aggregatedAfterSuites = []*types.SetupSummary{} } func (aggregator *Aggregator) announceBeforeSuite(setupSummary *types.SetupSummary) { aggregator.stenographer.AnnounceCapturedOutput(setupSummary.CapturedOutput) if setupSummary.State != types.SpecStatePassed { aggregator.stenographer.AnnounceBeforeSuiteFailure(setupSummary, aggregator.config.Succinct, aggregator.config.FullTrace) } } func (aggregator *Aggregator) announceAfterSuite(setupSummary *types.SetupSummary) { aggregator.stenographer.AnnounceCapturedOutput(setupSummary.CapturedOutput) if setupSummary.State != types.SpecStatePassed { aggregator.stenographer.AnnounceAfterSuiteFailure(setupSummary, aggregator.config.Succinct, aggregator.config.FullTrace) } } func (aggregator *Aggregator) announceSpec(specSummary *types.SpecSummary) { if aggregator.config.Verbose && specSummary.State != types.SpecStatePending && specSummary.State != types.SpecStateSkipped { aggregator.stenographer.AnnounceSpecWillRun(specSummary) } aggregator.stenographer.AnnounceCapturedOutput(specSummary.CapturedOutput) switch specSummary.State { case types.SpecStatePassed: if specSummary.IsMeasurement { aggregator.stenographer.AnnounceSuccessfulMeasurement(specSummary, aggregator.config.Succinct) } else if specSummary.RunTime.Seconds() >= aggregator.config.SlowSpecThreshold { aggregator.stenographer.AnnounceSuccessfulSlowSpec(specSummary, aggregator.config.Succinct) } else { aggregator.stenographer.AnnounceSuccessfulSpec(specSummary) } case types.SpecStatePending: aggregator.stenographer.AnnouncePendingSpec(specSummary, aggregator.config.NoisyPendings && !aggregator.config.Succinct) case types.SpecStateSkipped: aggregator.stenographer.AnnounceSkippedSpec(specSummary, aggregator.config.Succinct || !aggregator.config.NoisySkippings, aggregator.config.FullTrace) case types.SpecStateTimedOut: aggregator.stenographer.AnnounceSpecTimedOut(specSummary, aggregator.config.Succinct, aggregator.config.FullTrace) case types.SpecStatePanicked: aggregator.stenographer.AnnounceSpecPanicked(specSummary, aggregator.config.Succinct, aggregator.config.FullTrace) case types.SpecStateFailed: aggregator.stenographer.AnnounceSpecFailed(specSummary, aggregator.config.Succinct, aggregator.config.FullTrace) } } func (aggregator *Aggregator) registerSuiteEnding(suite *types.SuiteSummary) (finished bool, passed bool) { aggregator.aggregatedSuiteEndings = append(aggregator.aggregatedSuiteEndings, suite) if len(aggregator.aggregatedSuiteEndings) < aggregator.nodeCount { return false, false } aggregatedSuiteSummary := &types.SuiteSummary{} aggregatedSuiteSummary.SuiteSucceeded = true for _, suiteSummary := range aggregator.aggregatedSuiteEndings { if !suiteSummary.SuiteSucceeded { aggregatedSuiteSummary.SuiteSucceeded = false } aggregatedSuiteSummary.NumberOfSpecsThatWillBeRun += suiteSummary.NumberOfSpecsThatWillBeRun aggregatedSuiteSummary.NumberOfTotalSpecs += suiteSummary.NumberOfTotalSpecs aggregatedSuiteSummary.NumberOfPassedSpecs += suiteSummary.NumberOfPassedSpecs aggregatedSuiteSummary.NumberOfFailedSpecs += suiteSummary.NumberOfFailedSpecs aggregatedSuiteSummary.NumberOfPendingSpecs += suiteSummary.NumberOfPendingSpecs aggregatedSuiteSummary.NumberOfSkippedSpecs += suiteSummary.NumberOfSkippedSpecs aggregatedSuiteSummary.NumberOfFlakedSpecs += suiteSummary.NumberOfFlakedSpecs } aggregatedSuiteSummary.RunTime = time.Since(aggregator.startTime) aggregator.stenographer.SummarizeFailures(aggregator.specs) aggregator.stenographer.AnnounceSpecRunCompletion(aggregatedSuiteSummary, aggregator.config.Succinct) return true, aggregatedSuiteSummary.SuiteSucceeded }
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kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/remote/output_interceptor_unix.go
// +build freebsd openbsd netbsd dragonfly darwin linux solaris package remote import ( "errors" "io/ioutil" "os" "github.com/nxadm/tail" "golang.org/x/sys/unix" ) func NewOutputInterceptor() OutputInterceptor { return &outputInterceptor{} } type outputInterceptor struct { redirectFile *os.File streamTarget *os.File intercepting bool tailer *tail.Tail doneTailing chan bool } func (interceptor *outputInterceptor) StartInterceptingOutput() error { if interceptor.intercepting { return errors.New("Already intercepting output!") } interceptor.intercepting = true var err error interceptor.redirectFile, err = ioutil.TempFile("", "ginkgo-output") if err != nil { return err } // This might call Dup3 if the dup2 syscall is not available, e.g. on // linux/arm64 or linux/riscv64 unix.Dup2(int(interceptor.redirectFile.Fd()), 1) unix.Dup2(int(interceptor.redirectFile.Fd()), 2) if interceptor.streamTarget != nil { interceptor.tailer, _ = tail.TailFile(interceptor.redirectFile.Name(), tail.Config{Follow: true}) interceptor.doneTailing = make(chan bool) go func() { for line := range interceptor.tailer.Lines { interceptor.streamTarget.Write([]byte(line.Text + "\n")) } close(interceptor.doneTailing) }() } return nil } func (interceptor *outputInterceptor) StopInterceptingAndReturnOutput() (string, error) { if !interceptor.intercepting { return "", errors.New("Not intercepting output!") } interceptor.redirectFile.Close() output, err := ioutil.ReadFile(interceptor.redirectFile.Name()) os.Remove(interceptor.redirectFile.Name()) interceptor.intercepting = false if interceptor.streamTarget != nil { interceptor.tailer.Stop() interceptor.tailer.Cleanup() <-interceptor.doneTailing interceptor.streamTarget.Sync() } return string(output), err } func (interceptor *outputInterceptor) StreamTo(out *os.File) { interceptor.streamTarget = out }
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kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/remote/forwarding_reporter.go
package remote import ( "bytes" "encoding/json" "fmt" "io" "net/http" "os" "github.com/onsi/ginkgo/internal/writer" "github.com/onsi/ginkgo/reporters" "github.com/onsi/ginkgo/reporters/stenographer" "github.com/onsi/ginkgo/config" "github.com/onsi/ginkgo/types" ) //An interface to net/http's client to allow the injection of fakes under test type Poster interface { Post(url string, bodyType string, body io.Reader) (resp *http.Response, err error) } /* The ForwardingReporter is a Ginkgo reporter that forwards information to a Ginkgo remote server. When streaming parallel test output, this repoter is automatically installed by Ginkgo. This is accomplished by passing in the GINKGO_REMOTE_REPORTING_SERVER environment variable to `go test`, the Ginkgo test runner detects this environment variable (which should contain the host of the server) and automatically installs a ForwardingReporter in place of Ginkgo's DefaultReporter. */ type ForwardingReporter struct { serverHost string poster Poster outputInterceptor OutputInterceptor debugMode bool debugFile *os.File nestedReporter *reporters.DefaultReporter } func NewForwardingReporter(config config.DefaultReporterConfigType, serverHost string, poster Poster, outputInterceptor OutputInterceptor, ginkgoWriter *writer.Writer, debugFile string) *ForwardingReporter { reporter := &ForwardingReporter{ serverHost: serverHost, poster: poster, outputInterceptor: outputInterceptor, } if debugFile != "" { var err error reporter.debugMode = true reporter.debugFile, err = os.Create(debugFile) if err != nil { fmt.Println(err.Error()) os.Exit(1) } if !config.Verbose { //if verbose is true then the GinkgoWriter emits to stdout. Don't _also_ redirect GinkgoWriter output as that will result in duplication. ginkgoWriter.AndRedirectTo(reporter.debugFile) } outputInterceptor.StreamTo(reporter.debugFile) //This is not working stenographer := stenographer.New(false, true, reporter.debugFile) config.Succinct = false config.Verbose = true config.FullTrace = true reporter.nestedReporter = reporters.NewDefaultReporter(config, stenographer) } return reporter } func (reporter *ForwardingReporter) post(path string, data interface{}) { encoded, _ := json.Marshal(data) buffer := bytes.NewBuffer(encoded) reporter.poster.Post(reporter.serverHost+path, "application/json", buffer) } func (reporter *ForwardingReporter) SpecSuiteWillBegin(conf config.GinkgoConfigType, summary *types.SuiteSummary) { data := struct { Config config.GinkgoConfigType `json:"config"` Summary *types.SuiteSummary `json:"suite-summary"` }{ conf, summary, } reporter.outputInterceptor.StartInterceptingOutput() if reporter.debugMode { reporter.nestedReporter.SpecSuiteWillBegin(conf, summary) reporter.debugFile.Sync() } reporter.post("/SpecSuiteWillBegin", data) } func (reporter *ForwardingReporter) BeforeSuiteDidRun(setupSummary *types.SetupSummary) { output, _ := reporter.outputInterceptor.StopInterceptingAndReturnOutput() reporter.outputInterceptor.StartInterceptingOutput() setupSummary.CapturedOutput = output if reporter.debugMode { reporter.nestedReporter.BeforeSuiteDidRun(setupSummary) reporter.debugFile.Sync() } reporter.post("/BeforeSuiteDidRun", setupSummary) } func (reporter *ForwardingReporter) SpecWillRun(specSummary *types.SpecSummary) { if reporter.debugMode { reporter.nestedReporter.SpecWillRun(specSummary) reporter.debugFile.Sync() } reporter.post("/SpecWillRun", specSummary) } func (reporter *ForwardingReporter) SpecDidComplete(specSummary *types.SpecSummary) { output, _ := reporter.outputInterceptor.StopInterceptingAndReturnOutput() reporter.outputInterceptor.StartInterceptingOutput() specSummary.CapturedOutput = output if reporter.debugMode { reporter.nestedReporter.SpecDidComplete(specSummary) reporter.debugFile.Sync() } reporter.post("/SpecDidComplete", specSummary) } func (reporter *ForwardingReporter) AfterSuiteDidRun(setupSummary *types.SetupSummary) { output, _ := reporter.outputInterceptor.StopInterceptingAndReturnOutput() reporter.outputInterceptor.StartInterceptingOutput() setupSummary.CapturedOutput = output if reporter.debugMode { reporter.nestedReporter.AfterSuiteDidRun(setupSummary) reporter.debugFile.Sync() } reporter.post("/AfterSuiteDidRun", setupSummary) } func (reporter *ForwardingReporter) SpecSuiteDidEnd(summary *types.SuiteSummary) { reporter.outputInterceptor.StopInterceptingAndReturnOutput() if reporter.debugMode { reporter.nestedReporter.SpecSuiteDidEnd(summary) reporter.debugFile.Sync() } reporter.post("/SpecSuiteDidEnd", summary) }
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kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/leafnodes/synchronized_after_suite_node.go
package leafnodes import ( "encoding/json" "io/ioutil" "net/http" "time" "github.com/onsi/ginkgo/internal/failer" "github.com/onsi/ginkgo/types" ) type synchronizedAfterSuiteNode struct { runnerA *runner runnerB *runner outcome types.SpecState failure types.SpecFailure runTime time.Duration } func NewSynchronizedAfterSuiteNode(bodyA interface{}, bodyB interface{}, codeLocation types.CodeLocation, timeout time.Duration, failer *failer.Failer) SuiteNode { return &synchronizedAfterSuiteNode{ runnerA: newRunner(bodyA, codeLocation, timeout, failer, types.SpecComponentTypeAfterSuite, 0), runnerB: newRunner(bodyB, codeLocation, timeout, failer, types.SpecComponentTypeAfterSuite, 0), } } func (node *synchronizedAfterSuiteNode) Run(parallelNode int, parallelTotal int, syncHost string) bool { node.outcome, node.failure = node.runnerA.run() if parallelNode == 1 { if parallelTotal > 1 { node.waitUntilOtherNodesAreDone(syncHost) } outcome, failure := node.runnerB.run() if node.outcome == types.SpecStatePassed { node.outcome, node.failure = outcome, failure } } return node.outcome == types.SpecStatePassed } func (node *synchronizedAfterSuiteNode) Passed() bool { return node.outcome == types.SpecStatePassed } func (node *synchronizedAfterSuiteNode) Summary() *types.SetupSummary { return &types.SetupSummary{ ComponentType: node.runnerA.nodeType, CodeLocation: node.runnerA.codeLocation, State: node.outcome, RunTime: node.runTime, Failure: node.failure, } } func (node *synchronizedAfterSuiteNode) waitUntilOtherNodesAreDone(syncHost string) { for { if node.canRun(syncHost) { return } time.Sleep(50 * time.Millisecond) } } func (node *synchronizedAfterSuiteNode) canRun(syncHost string) bool { resp, err := http.Get(syncHost + "/RemoteAfterSuiteData") if err != nil || resp.StatusCode != http.StatusOK { return false } body, err := ioutil.ReadAll(resp.Body) if err != nil { return false } resp.Body.Close() afterSuiteData := types.RemoteAfterSuiteData{} err = json.Unmarshal(body, &afterSuiteData) if err != nil { return false } return afterSuiteData.CanRun }
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kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/leafnodes/interfaces.go
package leafnodes import ( "github.com/onsi/ginkgo/types" ) type BasicNode interface { Type() types.SpecComponentType Run() (types.SpecState, types.SpecFailure) CodeLocation() types.CodeLocation } type SubjectNode interface { BasicNode Text() string Flag() types.FlagType Samples() int }
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kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/leafnodes/runner.go
package leafnodes import ( "fmt" "reflect" "time" "github.com/onsi/ginkgo/internal/codelocation" "github.com/onsi/ginkgo/internal/failer" "github.com/onsi/ginkgo/types" ) type runner struct { isAsync bool asyncFunc func(chan<- interface{}) syncFunc func() codeLocation types.CodeLocation timeoutThreshold time.Duration nodeType types.SpecComponentType componentIndex int failer *failer.Failer } func newRunner(body interface{}, codeLocation types.CodeLocation, timeout time.Duration, failer *failer.Failer, nodeType types.SpecComponentType, componentIndex int) *runner { bodyType := reflect.TypeOf(body) if bodyType.Kind() != reflect.Func { panic(fmt.Sprintf("Expected a function but got something else at %v", codeLocation)) } runner := &runner{ codeLocation: codeLocation, timeoutThreshold: timeout, failer: failer, nodeType: nodeType, componentIndex: componentIndex, } switch bodyType.NumIn() { case 0: runner.syncFunc = body.(func()) return runner case 1: if !(bodyType.In(0).Kind() == reflect.Chan && bodyType.In(0).Elem().Kind() == reflect.Interface) { panic(fmt.Sprintf("Must pass a Done channel to function at %v", codeLocation)) } wrappedBody := func(done chan<- interface{}) { bodyValue := reflect.ValueOf(body) bodyValue.Call([]reflect.Value{reflect.ValueOf(done)}) } runner.isAsync = true runner.asyncFunc = wrappedBody return runner } panic(fmt.Sprintf("Too many arguments to function at %v", codeLocation)) } func (r *runner) run() (outcome types.SpecState, failure types.SpecFailure) { if r.isAsync { return r.runAsync() } else { return r.runSync() } } func (r *runner) runAsync() (outcome types.SpecState, failure types.SpecFailure) { done := make(chan interface{}, 1) go func() { finished := false defer func() { if e := recover(); e != nil || !finished { r.failer.Panic(codelocation.New(2), e) select { case <-done: break default: close(done) } } }() r.asyncFunc(done) finished = true }() // If this goroutine gets no CPU time before the select block, // the <-done case may complete even if the test took longer than the timeoutThreshold. // This can cause flaky behaviour, but we haven't seen it in the wild. select { case <-done: case <-time.After(r.timeoutThreshold): r.failer.Timeout(r.codeLocation) } failure, outcome = r.failer.Drain(r.nodeType, r.componentIndex, r.codeLocation) return } func (r *runner) runSync() (outcome types.SpecState, failure types.SpecFailure) { finished := false defer func() { if e := recover(); e != nil || !finished { r.failer.Panic(codelocation.New(2), e) } failure, outcome = r.failer.Drain(r.nodeType, r.componentIndex, r.codeLocation) }() r.syncFunc() finished = true return }
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kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/leafnodes/it_node.go
package leafnodes import ( "time" "github.com/onsi/ginkgo/internal/failer" "github.com/onsi/ginkgo/types" ) type ItNode struct { runner *runner flag types.FlagType text string } func NewItNode(text string, body interface{}, flag types.FlagType, codeLocation types.CodeLocation, timeout time.Duration, failer *failer.Failer, componentIndex int) *ItNode { return &ItNode{ runner: newRunner(body, codeLocation, timeout, failer, types.SpecComponentTypeIt, componentIndex), flag: flag, text: text, } } func (node *ItNode) Run() (outcome types.SpecState, failure types.SpecFailure) { return node.runner.run() } func (node *ItNode) Type() types.SpecComponentType { return types.SpecComponentTypeIt } func (node *ItNode) Text() string { return node.text } func (node *ItNode) Flag() types.FlagType { return node.flag } func (node *ItNode) CodeLocation() types.CodeLocation { return node.runner.codeLocation } func (node *ItNode) Samples() int { return 1 }
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kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/leafnodes/measure_node.go
package leafnodes import ( "reflect" "github.com/onsi/ginkgo/internal/failer" "github.com/onsi/ginkgo/types" ) type MeasureNode struct { runner *runner text string flag types.FlagType samples int benchmarker *benchmarker } func NewMeasureNode(text string, body interface{}, flag types.FlagType, codeLocation types.CodeLocation, samples int, failer *failer.Failer, componentIndex int) *MeasureNode { benchmarker := newBenchmarker() wrappedBody := func() { reflect.ValueOf(body).Call([]reflect.Value{reflect.ValueOf(benchmarker)}) } return &MeasureNode{ runner: newRunner(wrappedBody, codeLocation, 0, failer, types.SpecComponentTypeMeasure, componentIndex), text: text, flag: flag, samples: samples, benchmarker: benchmarker, } } func (node *MeasureNode) Run() (outcome types.SpecState, failure types.SpecFailure) { return node.runner.run() } func (node *MeasureNode) MeasurementsReport() map[string]*types.SpecMeasurement { return node.benchmarker.measurementsReport() } func (node *MeasureNode) Type() types.SpecComponentType { return types.SpecComponentTypeMeasure } func (node *MeasureNode) Text() string { return node.text } func (node *MeasureNode) Flag() types.FlagType { return node.flag } func (node *MeasureNode) CodeLocation() types.CodeLocation { return node.runner.codeLocation } func (node *MeasureNode) Samples() int { return node.samples }
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kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/leafnodes/suite_nodes.go
package leafnodes import ( "time" "github.com/onsi/ginkgo/internal/failer" "github.com/onsi/ginkgo/types" ) type SuiteNode interface { Run(parallelNode int, parallelTotal int, syncHost string) bool Passed() bool Summary() *types.SetupSummary } type simpleSuiteNode struct { runner *runner outcome types.SpecState failure types.SpecFailure runTime time.Duration } func (node *simpleSuiteNode) Run(parallelNode int, parallelTotal int, syncHost string) bool { t := time.Now() node.outcome, node.failure = node.runner.run() node.runTime = time.Since(t) return node.outcome == types.SpecStatePassed } func (node *simpleSuiteNode) Passed() bool { return node.outcome == types.SpecStatePassed } func (node *simpleSuiteNode) Summary() *types.SetupSummary { return &types.SetupSummary{ ComponentType: node.runner.nodeType, CodeLocation: node.runner.codeLocation, State: node.outcome, RunTime: node.runTime, Failure: node.failure, } } func NewBeforeSuiteNode(body interface{}, codeLocation types.CodeLocation, timeout time.Duration, failer *failer.Failer) SuiteNode { return &simpleSuiteNode{ runner: newRunner(body, codeLocation, timeout, failer, types.SpecComponentTypeBeforeSuite, 0), } } func NewAfterSuiteNode(body interface{}, codeLocation types.CodeLocation, timeout time.Duration, failer *failer.Failer) SuiteNode { return &simpleSuiteNode{ runner: newRunner(body, codeLocation, timeout, failer, types.SpecComponentTypeAfterSuite, 0), } }
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kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/leafnodes/benchmarker.go
package leafnodes import ( "math" "time" "sync" "github.com/onsi/ginkgo/types" ) type benchmarker struct { mu sync.Mutex measurements map[string]*types.SpecMeasurement orderCounter int } func newBenchmarker() *benchmarker { return &benchmarker{ measurements: make(map[string]*types.SpecMeasurement), } } func (b *benchmarker) Time(name string, body func(), info ...interface{}) (elapsedTime time.Duration) { t := time.Now() body() elapsedTime = time.Since(t) b.mu.Lock() defer b.mu.Unlock() measurement := b.getMeasurement(name, "Fastest Time", "Slowest Time", "Average Time", "s", 3, info...) measurement.Results = append(measurement.Results, elapsedTime.Seconds()) return } func (b *benchmarker) RecordValue(name string, value float64, info ...interface{}) { b.mu.Lock() measurement := b.getMeasurement(name, "Smallest", " Largest", " Average", "", 3, info...) defer b.mu.Unlock() measurement.Results = append(measurement.Results, value) } func (b *benchmarker) RecordValueWithPrecision(name string, value float64, units string, precision int, info ...interface{}) { b.mu.Lock() measurement := b.getMeasurement(name, "Smallest", " Largest", " Average", units, precision, info...) defer b.mu.Unlock() measurement.Results = append(measurement.Results, value) } func (b *benchmarker) getMeasurement(name string, smallestLabel string, largestLabel string, averageLabel string, units string, precision int, info ...interface{}) *types.SpecMeasurement { measurement, ok := b.measurements[name] if !ok { var computedInfo interface{} computedInfo = nil if len(info) > 0 { computedInfo = info[0] } measurement = &types.SpecMeasurement{ Name: name, Info: computedInfo, Order: b.orderCounter, SmallestLabel: smallestLabel, LargestLabel: largestLabel, AverageLabel: averageLabel, Units: units, Precision: precision, Results: make([]float64, 0), } b.measurements[name] = measurement b.orderCounter++ } return measurement } func (b *benchmarker) measurementsReport() map[string]*types.SpecMeasurement { b.mu.Lock() defer b.mu.Unlock() for _, measurement := range b.measurements { measurement.Smallest = math.MaxFloat64 measurement.Largest = -math.MaxFloat64 sum := float64(0) sumOfSquares := float64(0) for _, result := range measurement.Results { if result > measurement.Largest { measurement.Largest = result } if result < measurement.Smallest { measurement.Smallest = result } sum += result sumOfSquares += result * result } n := float64(len(measurement.Results)) measurement.Average = sum / n measurement.StdDeviation = math.Sqrt(sumOfSquares/n - (sum/n)*(sum/n)) } return b.measurements }
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kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/leafnodes/setup_nodes.go
package leafnodes import ( "time" "github.com/onsi/ginkgo/internal/failer" "github.com/onsi/ginkgo/types" ) type SetupNode struct { runner *runner } func (node *SetupNode) Run() (outcome types.SpecState, failure types.SpecFailure) { return node.runner.run() } func (node *SetupNode) Type() types.SpecComponentType { return node.runner.nodeType } func (node *SetupNode) CodeLocation() types.CodeLocation { return node.runner.codeLocation } func NewBeforeEachNode(body interface{}, codeLocation types.CodeLocation, timeout time.Duration, failer *failer.Failer, componentIndex int) *SetupNode { return &SetupNode{ runner: newRunner(body, codeLocation, timeout, failer, types.SpecComponentTypeBeforeEach, componentIndex), } } func NewAfterEachNode(body interface{}, codeLocation types.CodeLocation, timeout time.Duration, failer *failer.Failer, componentIndex int) *SetupNode { return &SetupNode{ runner: newRunner(body, codeLocation, timeout, failer, types.SpecComponentTypeAfterEach, componentIndex), } } func NewJustBeforeEachNode(body interface{}, codeLocation types.CodeLocation, timeout time.Duration, failer *failer.Failer, componentIndex int) *SetupNode { return &SetupNode{ runner: newRunner(body, codeLocation, timeout, failer, types.SpecComponentTypeJustBeforeEach, componentIndex), } } func NewJustAfterEachNode(body interface{}, codeLocation types.CodeLocation, timeout time.Duration, failer *failer.Failer, componentIndex int) *SetupNode { return &SetupNode{ runner: newRunner(body, codeLocation, timeout, failer, types.SpecComponentTypeJustAfterEach, componentIndex), } }
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kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/leafnodes/synchronized_before_suite_node.go
package leafnodes import ( "bytes" "encoding/json" "io/ioutil" "net/http" "reflect" "time" "github.com/onsi/ginkgo/internal/failer" "github.com/onsi/ginkgo/types" ) type synchronizedBeforeSuiteNode struct { runnerA *runner runnerB *runner data []byte outcome types.SpecState failure types.SpecFailure runTime time.Duration } func NewSynchronizedBeforeSuiteNode(bodyA interface{}, bodyB interface{}, codeLocation types.CodeLocation, timeout time.Duration, failer *failer.Failer) SuiteNode { node := &synchronizedBeforeSuiteNode{} node.runnerA = newRunner(node.wrapA(bodyA), codeLocation, timeout, failer, types.SpecComponentTypeBeforeSuite, 0) node.runnerB = newRunner(node.wrapB(bodyB), codeLocation, timeout, failer, types.SpecComponentTypeBeforeSuite, 0) return node } func (node *synchronizedBeforeSuiteNode) Run(parallelNode int, parallelTotal int, syncHost string) bool { t := time.Now() defer func() { node.runTime = time.Since(t) }() if parallelNode == 1 { node.outcome, node.failure = node.runA(parallelTotal, syncHost) } else { node.outcome, node.failure = node.waitForA(syncHost) } if node.outcome != types.SpecStatePassed { return false } node.outcome, node.failure = node.runnerB.run() return node.outcome == types.SpecStatePassed } func (node *synchronizedBeforeSuiteNode) runA(parallelTotal int, syncHost string) (types.SpecState, types.SpecFailure) { outcome, failure := node.runnerA.run() if parallelTotal > 1 { state := types.RemoteBeforeSuiteStatePassed if outcome != types.SpecStatePassed { state = types.RemoteBeforeSuiteStateFailed } json := (types.RemoteBeforeSuiteData{ Data: node.data, State: state, }).ToJSON() http.Post(syncHost+"/BeforeSuiteState", "application/json", bytes.NewBuffer(json)) } return outcome, failure } func (node *synchronizedBeforeSuiteNode) waitForA(syncHost string) (types.SpecState, types.SpecFailure) { failure := func(message string) types.SpecFailure { return types.SpecFailure{ Message: message, Location: node.runnerA.codeLocation, ComponentType: node.runnerA.nodeType, ComponentIndex: node.runnerA.componentIndex, ComponentCodeLocation: node.runnerA.codeLocation, } } for { resp, err := http.Get(syncHost + "/BeforeSuiteState") if err != nil || resp.StatusCode != http.StatusOK { return types.SpecStateFailed, failure("Failed to fetch BeforeSuite state") } body, err := ioutil.ReadAll(resp.Body) if err != nil { return types.SpecStateFailed, failure("Failed to read BeforeSuite state") } resp.Body.Close() beforeSuiteData := types.RemoteBeforeSuiteData{} err = json.Unmarshal(body, &beforeSuiteData) if err != nil { return types.SpecStateFailed, failure("Failed to decode BeforeSuite state") } switch beforeSuiteData.State { case types.RemoteBeforeSuiteStatePassed: node.data = beforeSuiteData.Data return types.SpecStatePassed, types.SpecFailure{} case types.RemoteBeforeSuiteStateFailed: return types.SpecStateFailed, failure("BeforeSuite on Node 1 failed") case types.RemoteBeforeSuiteStateDisappeared: return types.SpecStateFailed, failure("Node 1 disappeared before completing BeforeSuite") } time.Sleep(50 * time.Millisecond) } } func (node *synchronizedBeforeSuiteNode) Passed() bool { return node.outcome == types.SpecStatePassed } func (node *synchronizedBeforeSuiteNode) Summary() *types.SetupSummary { return &types.SetupSummary{ ComponentType: node.runnerA.nodeType, CodeLocation: node.runnerA.codeLocation, State: node.outcome, RunTime: node.runTime, Failure: node.failure, } } func (node *synchronizedBeforeSuiteNode) wrapA(bodyA interface{}) interface{} { typeA := reflect.TypeOf(bodyA) if typeA.Kind() != reflect.Func { panic("SynchronizedBeforeSuite expects a function as its first argument") } takesNothing := typeA.NumIn() == 0 takesADoneChannel := typeA.NumIn() == 1 && typeA.In(0).Kind() == reflect.Chan && typeA.In(0).Elem().Kind() == reflect.Interface returnsBytes := typeA.NumOut() == 1 && typeA.Out(0).Kind() == reflect.Slice && typeA.Out(0).Elem().Kind() == reflect.Uint8 if !((takesNothing || takesADoneChannel) && returnsBytes) { panic("SynchronizedBeforeSuite's first argument should be a function that returns []byte and either takes no arguments or takes a Done channel.") } if takesADoneChannel { return func(done chan<- interface{}) { out := reflect.ValueOf(bodyA).Call([]reflect.Value{reflect.ValueOf(done)}) node.data = out[0].Interface().([]byte) } } return func() { out := reflect.ValueOf(bodyA).Call([]reflect.Value{}) node.data = out[0].Interface().([]byte) } } func (node *synchronizedBeforeSuiteNode) wrapB(bodyB interface{}) interface{} { typeB := reflect.TypeOf(bodyB) if typeB.Kind() != reflect.Func { panic("SynchronizedBeforeSuite expects a function as its second argument") } returnsNothing := typeB.NumOut() == 0 takesBytesOnly := typeB.NumIn() == 1 && typeB.In(0).Kind() == reflect.Slice && typeB.In(0).Elem().Kind() == reflect.Uint8 takesBytesAndDone := typeB.NumIn() == 2 && typeB.In(0).Kind() == reflect.Slice && typeB.In(0).Elem().Kind() == reflect.Uint8 && typeB.In(1).Kind() == reflect.Chan && typeB.In(1).Elem().Kind() == reflect.Interface if !((takesBytesOnly || takesBytesAndDone) && returnsNothing) { panic("SynchronizedBeforeSuite's second argument should be a function that returns nothing and either takes []byte or ([]byte, Done)") } if takesBytesAndDone { return func(done chan<- interface{}) { reflect.ValueOf(bodyB).Call([]reflect.Value{reflect.ValueOf(node.data), reflect.ValueOf(done)}) } } return func() { reflect.ValueOf(bodyB).Call([]reflect.Value{reflect.ValueOf(node.data)}) } }
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kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/specrunner/spec_runner.go
package specrunner import ( "fmt" "os" "os/signal" "sync" "syscall" "github.com/onsi/ginkgo/internal/spec_iterator" "github.com/onsi/ginkgo/config" "github.com/onsi/ginkgo/internal/leafnodes" "github.com/onsi/ginkgo/internal/spec" Writer "github.com/onsi/ginkgo/internal/writer" "github.com/onsi/ginkgo/reporters" "github.com/onsi/ginkgo/types" "time" ) type SpecRunner struct { description string beforeSuiteNode leafnodes.SuiteNode iterator spec_iterator.SpecIterator afterSuiteNode leafnodes.SuiteNode reporters []reporters.Reporter startTime time.Time suiteID string runningSpec *spec.Spec writer Writer.WriterInterface config config.GinkgoConfigType interrupted bool processedSpecs []*spec.Spec lock *sync.Mutex } func New(description string, beforeSuiteNode leafnodes.SuiteNode, iterator spec_iterator.SpecIterator, afterSuiteNode leafnodes.SuiteNode, reporters []reporters.Reporter, writer Writer.WriterInterface, config config.GinkgoConfigType) *SpecRunner { return &SpecRunner{ description: description, beforeSuiteNode: beforeSuiteNode, iterator: iterator, afterSuiteNode: afterSuiteNode, reporters: reporters, writer: writer, config: config, suiteID: randomID(), lock: &sync.Mutex{}, } } func (runner *SpecRunner) Run() bool { if runner.config.DryRun { runner.performDryRun() return true } runner.reportSuiteWillBegin() signalRegistered := make(chan struct{}) go runner.registerForInterrupts(signalRegistered) <-signalRegistered suitePassed := runner.runBeforeSuite() if suitePassed { suitePassed = runner.runSpecs() } runner.blockForeverIfInterrupted() suitePassed = runner.runAfterSuite() && suitePassed runner.reportSuiteDidEnd(suitePassed) return suitePassed } func (runner *SpecRunner) performDryRun() { runner.reportSuiteWillBegin() if runner.beforeSuiteNode != nil { summary := runner.beforeSuiteNode.Summary() summary.State = types.SpecStatePassed runner.reportBeforeSuite(summary) } for { spec, err := runner.iterator.Next() if err == spec_iterator.ErrClosed { break } if err != nil { fmt.Println("failed to iterate over tests:\n" + err.Error()) break } runner.processedSpecs = append(runner.processedSpecs, spec) summary := spec.Summary(runner.suiteID) runner.reportSpecWillRun(summary) if summary.State == types.SpecStateInvalid { summary.State = types.SpecStatePassed } runner.reportSpecDidComplete(summary, false) } if runner.afterSuiteNode != nil { summary := runner.afterSuiteNode.Summary() summary.State = types.SpecStatePassed runner.reportAfterSuite(summary) } runner.reportSuiteDidEnd(true) } func (runner *SpecRunner) runBeforeSuite() bool { if runner.beforeSuiteNode == nil || runner.wasInterrupted() { return true } runner.writer.Truncate() conf := runner.config passed := runner.beforeSuiteNode.Run(conf.ParallelNode, conf.ParallelTotal, conf.SyncHost) if !passed { runner.writer.DumpOut() } runner.reportBeforeSuite(runner.beforeSuiteNode.Summary()) return passed } func (runner *SpecRunner) runAfterSuite() bool { if runner.afterSuiteNode == nil { return true } runner.writer.Truncate() conf := runner.config passed := runner.afterSuiteNode.Run(conf.ParallelNode, conf.ParallelTotal, conf.SyncHost) if !passed { runner.writer.DumpOut() } runner.reportAfterSuite(runner.afterSuiteNode.Summary()) return passed } func (runner *SpecRunner) runSpecs() bool { suiteFailed := false skipRemainingSpecs := false for { spec, err := runner.iterator.Next() if err == spec_iterator.ErrClosed { break } if err != nil { fmt.Println("failed to iterate over tests:\n" + err.Error()) suiteFailed = true break } runner.processedSpecs = append(runner.processedSpecs, spec) if runner.wasInterrupted() { break } if skipRemainingSpecs { spec.Skip() } if !spec.Skipped() && !spec.Pending() { if passed := runner.runSpec(spec); !passed { suiteFailed = true } } else if spec.Pending() && runner.config.FailOnPending { runner.reportSpecWillRun(spec.Summary(runner.suiteID)) suiteFailed = true runner.reportSpecDidComplete(spec.Summary(runner.suiteID), spec.Failed()) } else { runner.reportSpecWillRun(spec.Summary(runner.suiteID)) runner.reportSpecDidComplete(spec.Summary(runner.suiteID), spec.Failed()) } if spec.Failed() && runner.config.FailFast { skipRemainingSpecs = true } } return !suiteFailed } func (runner *SpecRunner) runSpec(spec *spec.Spec) (passed bool) { maxAttempts := 1 if runner.config.FlakeAttempts > 0 { // uninitialized configs count as 1 maxAttempts = runner.config.FlakeAttempts } for i := 0; i < maxAttempts; i++ { runner.reportSpecWillRun(spec.Summary(runner.suiteID)) runner.runningSpec = spec spec.Run(runner.writer) runner.runningSpec = nil runner.reportSpecDidComplete(spec.Summary(runner.suiteID), spec.Failed()) if !spec.Failed() { return true } } return false } func (runner *SpecRunner) CurrentSpecSummary() (*types.SpecSummary, bool) { if runner.runningSpec == nil { return nil, false } return runner.runningSpec.Summary(runner.suiteID), true } func (runner *SpecRunner) registerForInterrupts(signalRegistered chan struct{}) { c := make(chan os.Signal, 1) signal.Notify(c, os.Interrupt, syscall.SIGTERM) close(signalRegistered) <-c signal.Stop(c) runner.markInterrupted() go runner.registerForHardInterrupts() runner.writer.DumpOutWithHeader(` Received interrupt. Emitting contents of GinkgoWriter... --------------------------------------------------------- `) if runner.afterSuiteNode != nil { fmt.Fprint(os.Stderr, ` --------------------------------------------------------- Received interrupt. Running AfterSuite... ^C again to terminate immediately `) runner.runAfterSuite() } runner.reportSuiteDidEnd(false) os.Exit(1) } func (runner *SpecRunner) registerForHardInterrupts() { c := make(chan os.Signal, 1) signal.Notify(c, os.Interrupt, syscall.SIGTERM) <-c fmt.Fprintln(os.Stderr, "\nReceived second interrupt. Shutting down.") os.Exit(1) } func (runner *SpecRunner) blockForeverIfInterrupted() { runner.lock.Lock() interrupted := runner.interrupted runner.lock.Unlock() if interrupted { select {} } } func (runner *SpecRunner) markInterrupted() { runner.lock.Lock() defer runner.lock.Unlock() runner.interrupted = true } func (runner *SpecRunner) wasInterrupted() bool { runner.lock.Lock() defer runner.lock.Unlock() return runner.interrupted } func (runner *SpecRunner) reportSuiteWillBegin() { runner.startTime = time.Now() summary := runner.suiteWillBeginSummary() for _, reporter := range runner.reporters { reporter.SpecSuiteWillBegin(runner.config, summary) } } func (runner *SpecRunner) reportBeforeSuite(summary *types.SetupSummary) { for _, reporter := range runner.reporters { reporter.BeforeSuiteDidRun(summary) } } func (runner *SpecRunner) reportAfterSuite(summary *types.SetupSummary) { for _, reporter := range runner.reporters { reporter.AfterSuiteDidRun(summary) } } func (runner *SpecRunner) reportSpecWillRun(summary *types.SpecSummary) { runner.writer.Truncate() for _, reporter := range runner.reporters { reporter.SpecWillRun(summary) } } func (runner *SpecRunner) reportSpecDidComplete(summary *types.SpecSummary, failed bool) { if len(summary.CapturedOutput) == 0 { summary.CapturedOutput = string(runner.writer.Bytes()) } for i := len(runner.reporters) - 1; i >= 1; i-- { runner.reporters[i].SpecDidComplete(summary) } if failed { runner.writer.DumpOut() } runner.reporters[0].SpecDidComplete(summary) } func (runner *SpecRunner) reportSuiteDidEnd(success bool) { summary := runner.suiteDidEndSummary(success) summary.RunTime = time.Since(runner.startTime) for _, reporter := range runner.reporters { reporter.SpecSuiteDidEnd(summary) } } func (runner *SpecRunner) countSpecsThatRanSatisfying(filter func(ex *spec.Spec) bool) (count int) { count = 0 for _, spec := range runner.processedSpecs { if filter(spec) { count++ } } return count } func (runner *SpecRunner) suiteDidEndSummary(success bool) *types.SuiteSummary { numberOfSpecsThatWillBeRun := runner.countSpecsThatRanSatisfying(func(ex *spec.Spec) bool { return !ex.Skipped() && !ex.Pending() }) numberOfPendingSpecs := runner.countSpecsThatRanSatisfying(func(ex *spec.Spec) bool { return ex.Pending() }) numberOfSkippedSpecs := runner.countSpecsThatRanSatisfying(func(ex *spec.Spec) bool { return ex.Skipped() }) numberOfPassedSpecs := runner.countSpecsThatRanSatisfying(func(ex *spec.Spec) bool { return ex.Passed() }) numberOfFlakedSpecs := runner.countSpecsThatRanSatisfying(func(ex *spec.Spec) bool { return ex.Flaked() }) numberOfFailedSpecs := runner.countSpecsThatRanSatisfying(func(ex *spec.Spec) bool { return ex.Failed() }) if runner.beforeSuiteNode != nil && !runner.beforeSuiteNode.Passed() && !runner.config.DryRun { var known bool numberOfSpecsThatWillBeRun, known = runner.iterator.NumberOfSpecsThatWillBeRunIfKnown() if !known { numberOfSpecsThatWillBeRun = runner.iterator.NumberOfSpecsPriorToIteration() } numberOfFailedSpecs = numberOfSpecsThatWillBeRun } return &types.SuiteSummary{ SuiteDescription: runner.description, SuiteSucceeded: success, SuiteID: runner.suiteID, NumberOfSpecsBeforeParallelization: runner.iterator.NumberOfSpecsPriorToIteration(), NumberOfTotalSpecs: len(runner.processedSpecs), NumberOfSpecsThatWillBeRun: numberOfSpecsThatWillBeRun, NumberOfPendingSpecs: numberOfPendingSpecs, NumberOfSkippedSpecs: numberOfSkippedSpecs, NumberOfPassedSpecs: numberOfPassedSpecs, NumberOfFailedSpecs: numberOfFailedSpecs, NumberOfFlakedSpecs: numberOfFlakedSpecs, } } func (runner *SpecRunner) suiteWillBeginSummary() *types.SuiteSummary { numTotal, known := runner.iterator.NumberOfSpecsToProcessIfKnown() if !known { numTotal = -1 } numToRun, known := runner.iterator.NumberOfSpecsThatWillBeRunIfKnown() if !known { numToRun = -1 } return &types.SuiteSummary{ SuiteDescription: runner.description, SuiteID: runner.suiteID, NumberOfSpecsBeforeParallelization: runner.iterator.NumberOfSpecsPriorToIteration(), NumberOfTotalSpecs: numTotal, NumberOfSpecsThatWillBeRun: numToRun, NumberOfPendingSpecs: -1, NumberOfSkippedSpecs: -1, NumberOfPassedSpecs: -1, NumberOfFailedSpecs: -1, NumberOfFlakedSpecs: -1, } }
9,185
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/specrunner/random_id.go
package specrunner import ( "crypto/rand" "fmt" ) func randomID() string { b := make([]byte, 8) _, err := rand.Read(b) if err != nil { return "" } return fmt.Sprintf("%x-%x-%x-%x", b[0:2], b[2:4], b[4:6], b[6:8]) }
9,186
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/suite/suite.go
package suite import ( "math/rand" "net/http" "time" "github.com/onsi/ginkgo/internal/spec_iterator" "github.com/onsi/ginkgo/config" "github.com/onsi/ginkgo/internal/containernode" "github.com/onsi/ginkgo/internal/failer" "github.com/onsi/ginkgo/internal/leafnodes" "github.com/onsi/ginkgo/internal/spec" "github.com/onsi/ginkgo/internal/specrunner" "github.com/onsi/ginkgo/internal/writer" "github.com/onsi/ginkgo/reporters" "github.com/onsi/ginkgo/types" ) type ginkgoTestingT interface { Fail() } type deferredContainerNode struct { text string body func() flag types.FlagType codeLocation types.CodeLocation } type Suite struct { topLevelContainer *containernode.ContainerNode currentContainer *containernode.ContainerNode deferredContainerNodes []deferredContainerNode containerIndex int beforeSuiteNode leafnodes.SuiteNode afterSuiteNode leafnodes.SuiteNode runner *specrunner.SpecRunner failer *failer.Failer running bool expandTopLevelNodes bool } func New(failer *failer.Failer) *Suite { topLevelContainer := containernode.New("[Top Level]", types.FlagTypeNone, types.CodeLocation{}) return &Suite{ topLevelContainer: topLevelContainer, currentContainer: topLevelContainer, failer: failer, containerIndex: 1, deferredContainerNodes: []deferredContainerNode{}, } } func (suite *Suite) Run(t ginkgoTestingT, description string, reporters []reporters.Reporter, writer writer.WriterInterface, config config.GinkgoConfigType) (bool, bool) { if config.ParallelTotal < 1 { panic("ginkgo.parallel.total must be >= 1") } if config.ParallelNode > config.ParallelTotal || config.ParallelNode < 1 { panic("ginkgo.parallel.node is one-indexed and must be <= ginkgo.parallel.total") } suite.expandTopLevelNodes = true for _, deferredNode := range suite.deferredContainerNodes { suite.PushContainerNode(deferredNode.text, deferredNode.body, deferredNode.flag, deferredNode.codeLocation) } r := rand.New(rand.NewSource(config.RandomSeed)) suite.topLevelContainer.Shuffle(r) iterator, hasProgrammaticFocus := suite.generateSpecsIterator(description, config) suite.runner = specrunner.New(description, suite.beforeSuiteNode, iterator, suite.afterSuiteNode, reporters, writer, config) suite.running = true success := suite.runner.Run() if !success { t.Fail() } return success, hasProgrammaticFocus } func (suite *Suite) generateSpecsIterator(description string, config config.GinkgoConfigType) (spec_iterator.SpecIterator, bool) { specsSlice := []*spec.Spec{} suite.topLevelContainer.BackPropagateProgrammaticFocus() for _, collatedNodes := range suite.topLevelContainer.Collate() { specsSlice = append(specsSlice, spec.New(collatedNodes.Subject, collatedNodes.Containers, config.EmitSpecProgress)) } specs := spec.NewSpecs(specsSlice) specs.RegexScansFilePath = config.RegexScansFilePath if config.RandomizeAllSpecs { specs.Shuffle(rand.New(rand.NewSource(config.RandomSeed))) } specs.ApplyFocus(description, config.FocusStrings, config.SkipStrings) if config.SkipMeasurements { specs.SkipMeasurements() } var iterator spec_iterator.SpecIterator if config.ParallelTotal > 1 { iterator = spec_iterator.NewParallelIterator(specs.Specs(), config.SyncHost) resp, err := http.Get(config.SyncHost + "/has-counter") if err != nil || resp.StatusCode != http.StatusOK { iterator = spec_iterator.NewShardedParallelIterator(specs.Specs(), config.ParallelTotal, config.ParallelNode) } } else { iterator = spec_iterator.NewSerialIterator(specs.Specs()) } return iterator, specs.HasProgrammaticFocus() } func (suite *Suite) CurrentRunningSpecSummary() (*types.SpecSummary, bool) { if !suite.running { return nil, false } return suite.runner.CurrentSpecSummary() } func (suite *Suite) SetBeforeSuiteNode(body interface{}, codeLocation types.CodeLocation, timeout time.Duration) { if suite.beforeSuiteNode != nil { panic("You may only call BeforeSuite once!") } suite.beforeSuiteNode = leafnodes.NewBeforeSuiteNode(body, codeLocation, timeout, suite.failer) } func (suite *Suite) SetAfterSuiteNode(body interface{}, codeLocation types.CodeLocation, timeout time.Duration) { if suite.afterSuiteNode != nil { panic("You may only call AfterSuite once!") } suite.afterSuiteNode = leafnodes.NewAfterSuiteNode(body, codeLocation, timeout, suite.failer) } func (suite *Suite) SetSynchronizedBeforeSuiteNode(bodyA interface{}, bodyB interface{}, codeLocation types.CodeLocation, timeout time.Duration) { if suite.beforeSuiteNode != nil { panic("You may only call BeforeSuite once!") } suite.beforeSuiteNode = leafnodes.NewSynchronizedBeforeSuiteNode(bodyA, bodyB, codeLocation, timeout, suite.failer) } func (suite *Suite) SetSynchronizedAfterSuiteNode(bodyA interface{}, bodyB interface{}, codeLocation types.CodeLocation, timeout time.Duration) { if suite.afterSuiteNode != nil { panic("You may only call AfterSuite once!") } suite.afterSuiteNode = leafnodes.NewSynchronizedAfterSuiteNode(bodyA, bodyB, codeLocation, timeout, suite.failer) } func (suite *Suite) PushContainerNode(text string, body func(), flag types.FlagType, codeLocation types.CodeLocation) { /* We defer walking the container nodes (which immediately evaluates the `body` function) until `RunSpecs` is called. We do this by storing off the deferred container nodes. Then, when `RunSpecs` is called we actually go through and add the container nodes to the test structure. This allows us to defer calling all the `body` functions until _after_ the top level functions have been walked, _after_ func init()s have been called, and _after_ `go test` has called `flag.Parse()`. This allows users to load up configuration information in the `TestX` go test hook just before `RunSpecs` is invoked and solves issues like #693 and makes the lifecycle easier to reason about. */ if !suite.expandTopLevelNodes { suite.deferredContainerNodes = append(suite.deferredContainerNodes, deferredContainerNode{text, body, flag, codeLocation}) return } container := containernode.New(text, flag, codeLocation) suite.currentContainer.PushContainerNode(container) previousContainer := suite.currentContainer suite.currentContainer = container suite.containerIndex++ body() suite.containerIndex-- suite.currentContainer = previousContainer } func (suite *Suite) PushItNode(text string, body interface{}, flag types.FlagType, codeLocation types.CodeLocation, timeout time.Duration) { if suite.running { suite.failer.Fail("You may only call It from within a Describe, Context or When", codeLocation) } suite.currentContainer.PushSubjectNode(leafnodes.NewItNode(text, body, flag, codeLocation, timeout, suite.failer, suite.containerIndex)) } func (suite *Suite) PushMeasureNode(text string, body interface{}, flag types.FlagType, codeLocation types.CodeLocation, samples int) { if suite.running { suite.failer.Fail("You may only call Measure from within a Describe, Context or When", codeLocation) } suite.currentContainer.PushSubjectNode(leafnodes.NewMeasureNode(text, body, flag, codeLocation, samples, suite.failer, suite.containerIndex)) } func (suite *Suite) PushBeforeEachNode(body interface{}, codeLocation types.CodeLocation, timeout time.Duration) { if suite.running { suite.failer.Fail("You may only call BeforeEach from within a Describe, Context or When", codeLocation) } suite.currentContainer.PushSetupNode(leafnodes.NewBeforeEachNode(body, codeLocation, timeout, suite.failer, suite.containerIndex)) } func (suite *Suite) PushJustBeforeEachNode(body interface{}, codeLocation types.CodeLocation, timeout time.Duration) { if suite.running { suite.failer.Fail("You may only call JustBeforeEach from within a Describe, Context or When", codeLocation) } suite.currentContainer.PushSetupNode(leafnodes.NewJustBeforeEachNode(body, codeLocation, timeout, suite.failer, suite.containerIndex)) } func (suite *Suite) PushJustAfterEachNode(body interface{}, codeLocation types.CodeLocation, timeout time.Duration) { if suite.running { suite.failer.Fail("You may only call JustAfterEach from within a Describe or Context", codeLocation) } suite.currentContainer.PushSetupNode(leafnodes.NewJustAfterEachNode(body, codeLocation, timeout, suite.failer, suite.containerIndex)) } func (suite *Suite) PushAfterEachNode(body interface{}, codeLocation types.CodeLocation, timeout time.Duration) { if suite.running { suite.failer.Fail("You may only call AfterEach from within a Describe, Context or When", codeLocation) } suite.currentContainer.PushSetupNode(leafnodes.NewAfterEachNode(body, codeLocation, timeout, suite.failer, suite.containerIndex)) }
9,187
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/writer/fake_writer.go
package writer type FakeGinkgoWriter struct { EventStream []string } func NewFake() *FakeGinkgoWriter { return &FakeGinkgoWriter{ EventStream: []string{}, } } func (writer *FakeGinkgoWriter) AddEvent(event string) { writer.EventStream = append(writer.EventStream, event) } func (writer *FakeGinkgoWriter) Truncate() { writer.EventStream = append(writer.EventStream, "TRUNCATE") } func (writer *FakeGinkgoWriter) DumpOut() { writer.EventStream = append(writer.EventStream, "DUMP") } func (writer *FakeGinkgoWriter) DumpOutWithHeader(header string) { writer.EventStream = append(writer.EventStream, "DUMP_WITH_HEADER: "+header) } func (writer *FakeGinkgoWriter) Bytes() []byte { writer.EventStream = append(writer.EventStream, "BYTES") return nil } func (writer *FakeGinkgoWriter) Write(data []byte) (n int, err error) { return 0, nil }
9,188
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/writer/writer.go
package writer import ( "bytes" "io" "sync" ) type WriterInterface interface { io.Writer Truncate() DumpOut() DumpOutWithHeader(header string) Bytes() []byte } type Writer struct { buffer *bytes.Buffer outWriter io.Writer lock *sync.Mutex stream bool redirector io.Writer } func New(outWriter io.Writer) *Writer { return &Writer{ buffer: &bytes.Buffer{}, lock: &sync.Mutex{}, outWriter: outWriter, stream: true, } } func (w *Writer) AndRedirectTo(writer io.Writer) { w.redirector = writer } func (w *Writer) SetStream(stream bool) { w.lock.Lock() defer w.lock.Unlock() w.stream = stream } func (w *Writer) Write(b []byte) (n int, err error) { w.lock.Lock() defer w.lock.Unlock() n, err = w.buffer.Write(b) if w.redirector != nil { w.redirector.Write(b) } if w.stream { return w.outWriter.Write(b) } return n, err } func (w *Writer) Truncate() { w.lock.Lock() defer w.lock.Unlock() w.buffer.Reset() } func (w *Writer) DumpOut() { w.lock.Lock() defer w.lock.Unlock() if !w.stream { w.buffer.WriteTo(w.outWriter) } } func (w *Writer) Bytes() []byte { w.lock.Lock() defer w.lock.Unlock() b := w.buffer.Bytes() copied := make([]byte, len(b)) copy(copied, b) return copied } func (w *Writer) DumpOutWithHeader(header string) { w.lock.Lock() defer w.lock.Unlock() if !w.stream && w.buffer.Len() > 0 { w.outWriter.Write([]byte(header)) w.buffer.WriteTo(w.outWriter) } }
9,189
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/global/init.go
package global import ( "time" "github.com/onsi/ginkgo/internal/failer" "github.com/onsi/ginkgo/internal/suite" ) const DefaultTimeout = time.Duration(1 * time.Second) var Suite *suite.Suite var Failer *failer.Failer func init() { InitializeGlobals() } func InitializeGlobals() { Failer = failer.New() Suite = suite.New(Failer) }
9,190
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/spec/spec.go
package spec import ( "fmt" "io" "time" "sync" "github.com/onsi/ginkgo/internal/containernode" "github.com/onsi/ginkgo/internal/leafnodes" "github.com/onsi/ginkgo/types" ) type Spec struct { subject leafnodes.SubjectNode focused bool announceProgress bool containers []*containernode.ContainerNode state types.SpecState runTime time.Duration startTime time.Time failure types.SpecFailure previousFailures bool stateMutex *sync.Mutex } func New(subject leafnodes.SubjectNode, containers []*containernode.ContainerNode, announceProgress bool) *Spec { spec := &Spec{ subject: subject, containers: containers, focused: subject.Flag() == types.FlagTypeFocused, announceProgress: announceProgress, stateMutex: &sync.Mutex{}, } spec.processFlag(subject.Flag()) for i := len(containers) - 1; i >= 0; i-- { spec.processFlag(containers[i].Flag()) } return spec } func (spec *Spec) processFlag(flag types.FlagType) { if flag == types.FlagTypeFocused { spec.focused = true } else if flag == types.FlagTypePending { spec.setState(types.SpecStatePending) } } func (spec *Spec) Skip() { spec.setState(types.SpecStateSkipped) } func (spec *Spec) Failed() bool { return spec.getState() == types.SpecStateFailed || spec.getState() == types.SpecStatePanicked || spec.getState() == types.SpecStateTimedOut } func (spec *Spec) Passed() bool { return spec.getState() == types.SpecStatePassed } func (spec *Spec) Flaked() bool { return spec.getState() == types.SpecStatePassed && spec.previousFailures } func (spec *Spec) Pending() bool { return spec.getState() == types.SpecStatePending } func (spec *Spec) Skipped() bool { return spec.getState() == types.SpecStateSkipped } func (spec *Spec) Focused() bool { return spec.focused } func (spec *Spec) IsMeasurement() bool { return spec.subject.Type() == types.SpecComponentTypeMeasure } func (spec *Spec) Summary(suiteID string) *types.SpecSummary { componentTexts := make([]string, len(spec.containers)+1) componentCodeLocations := make([]types.CodeLocation, len(spec.containers)+1) for i, container := range spec.containers { componentTexts[i] = container.Text() componentCodeLocations[i] = container.CodeLocation() } componentTexts[len(spec.containers)] = spec.subject.Text() componentCodeLocations[len(spec.containers)] = spec.subject.CodeLocation() runTime := spec.runTime if runTime == 0 && !spec.startTime.IsZero() { runTime = time.Since(spec.startTime) } return &types.SpecSummary{ IsMeasurement: spec.IsMeasurement(), NumberOfSamples: spec.subject.Samples(), ComponentTexts: componentTexts, ComponentCodeLocations: componentCodeLocations, State: spec.getState(), RunTime: runTime, Failure: spec.failure, Measurements: spec.measurementsReport(), SuiteID: suiteID, } } func (spec *Spec) ConcatenatedString() string { s := "" for _, container := range spec.containers { s += container.Text() + " " } return s + spec.subject.Text() } func (spec *Spec) Run(writer io.Writer) { if spec.getState() == types.SpecStateFailed { spec.previousFailures = true } spec.startTime = time.Now() defer func() { spec.runTime = time.Since(spec.startTime) }() for sample := 0; sample < spec.subject.Samples(); sample++ { spec.runSample(sample, writer) if spec.getState() != types.SpecStatePassed { return } } } func (spec *Spec) getState() types.SpecState { spec.stateMutex.Lock() defer spec.stateMutex.Unlock() return spec.state } func (spec *Spec) setState(state types.SpecState) { spec.stateMutex.Lock() defer spec.stateMutex.Unlock() spec.state = state } func (spec *Spec) runSample(sample int, writer io.Writer) { spec.setState(types.SpecStatePassed) spec.failure = types.SpecFailure{} innerMostContainerIndexToUnwind := -1 defer func() { for i := innerMostContainerIndexToUnwind; i >= 0; i-- { container := spec.containers[i] for _, justAfterEach := range container.SetupNodesOfType(types.SpecComponentTypeJustAfterEach) { spec.announceSetupNode(writer, "JustAfterEach", container, justAfterEach) justAfterEachState, justAfterEachFailure := justAfterEach.Run() if justAfterEachState != types.SpecStatePassed && spec.state == types.SpecStatePassed { spec.state = justAfterEachState spec.failure = justAfterEachFailure } } } for i := innerMostContainerIndexToUnwind; i >= 0; i-- { container := spec.containers[i] for _, afterEach := range container.SetupNodesOfType(types.SpecComponentTypeAfterEach) { spec.announceSetupNode(writer, "AfterEach", container, afterEach) afterEachState, afterEachFailure := afterEach.Run() if afterEachState != types.SpecStatePassed && spec.getState() == types.SpecStatePassed { spec.setState(afterEachState) spec.failure = afterEachFailure } } } }() for i, container := range spec.containers { innerMostContainerIndexToUnwind = i for _, beforeEach := range container.SetupNodesOfType(types.SpecComponentTypeBeforeEach) { spec.announceSetupNode(writer, "BeforeEach", container, beforeEach) s, f := beforeEach.Run() spec.failure = f spec.setState(s) if spec.getState() != types.SpecStatePassed { return } } } for _, container := range spec.containers { for _, justBeforeEach := range container.SetupNodesOfType(types.SpecComponentTypeJustBeforeEach) { spec.announceSetupNode(writer, "JustBeforeEach", container, justBeforeEach) s, f := justBeforeEach.Run() spec.failure = f spec.setState(s) if spec.getState() != types.SpecStatePassed { return } } } spec.announceSubject(writer, spec.subject) s, f := spec.subject.Run() spec.failure = f spec.setState(s) } func (spec *Spec) announceSetupNode(writer io.Writer, nodeType string, container *containernode.ContainerNode, setupNode leafnodes.BasicNode) { if spec.announceProgress { s := fmt.Sprintf("[%s] %s\n %s\n", nodeType, container.Text(), setupNode.CodeLocation().String()) writer.Write([]byte(s)) } } func (spec *Spec) announceSubject(writer io.Writer, subject leafnodes.SubjectNode) { if spec.announceProgress { nodeType := "" switch subject.Type() { case types.SpecComponentTypeIt: nodeType = "It" case types.SpecComponentTypeMeasure: nodeType = "Measure" } s := fmt.Sprintf("[%s] %s\n %s\n", nodeType, subject.Text(), subject.CodeLocation().String()) writer.Write([]byte(s)) } } func (spec *Spec) measurementsReport() map[string]*types.SpecMeasurement { if !spec.IsMeasurement() || spec.Failed() { return map[string]*types.SpecMeasurement{} } return spec.subject.(*leafnodes.MeasureNode).MeasurementsReport() }
9,191
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/spec/specs.go
package spec import ( "math/rand" "regexp" "sort" "strings" ) type Specs struct { specs []*Spec names []string hasProgrammaticFocus bool RegexScansFilePath bool } func NewSpecs(specs []*Spec) *Specs { names := make([]string, len(specs)) for i, spec := range specs { names[i] = spec.ConcatenatedString() } return &Specs{ specs: specs, names: names, } } 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)) names := make([]string, len(e.specs)) for i, j := range permutation { shuffledSpecs[i] = e.specs[j] names[i] = e.names[j] } e.specs = shuffledSpecs e.names = names } func (e *Specs) ApplyFocus(description string, focus, skip []string) { if len(focus)+len(skip) == 0 { e.applyProgrammaticFocus() } else { e.applyRegExpFocusAndSkip(description, focus, skip) } } 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, i int) []byte { if i > len(e.names) { return nil } if e.RegexScansFilePath { return []byte( description + " " + e.names[i] + " " + e.specs[i].subject.CodeLocation().FileName) } else { return []byte( description + " " + e.names[i]) } } func (e *Specs) applyRegExpFocusAndSkip(description string, focus, skip []string) { var focusFilter, skipFilter *regexp.Regexp if len(focus) > 0 { focusFilter = regexp.MustCompile(strings.Join(focus, "|")) } if len(skip) > 0 { skipFilter = regexp.MustCompile(strings.Join(skip, "|")) } for i, spec := range e.specs { matchesFocus := true matchesSkip := false toMatch := e.toMatch(description, i) if focusFilter != nil { matchesFocus = focusFilter.Match(toMatch) } if skipFilter != nil { matchesSkip = skipFilter.Match(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.names[i] < e.names[j] } func (e *Specs) Swap(i, j int) { e.names[i], e.names[j] = e.names[j], e.names[i] e.specs[i], e.specs[j] = e.specs[j], e.specs[i] }
9,192
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/spec_iterator/serial_spec_iterator.go
package spec_iterator import ( "github.com/onsi/ginkgo/internal/spec" ) type SerialIterator struct { specs []*spec.Spec index int } func NewSerialIterator(specs []*spec.Spec) *SerialIterator { return &SerialIterator{ specs: specs, index: 0, } } func (s *SerialIterator) Next() (*spec.Spec, error) { if s.index >= len(s.specs) { return nil, ErrClosed } spec := s.specs[s.index] s.index += 1 return spec, nil } func (s *SerialIterator) NumberOfSpecsPriorToIteration() int { return len(s.specs) } func (s *SerialIterator) NumberOfSpecsToProcessIfKnown() (int, bool) { return len(s.specs), true } func (s *SerialIterator) NumberOfSpecsThatWillBeRunIfKnown() (int, bool) { count := 0 for _, s := range s.specs { if !s.Skipped() && !s.Pending() { count += 1 } } return count, true }
9,193
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/spec_iterator/index_computer.go
package spec_iterator func ParallelizedIndexRange(length int, parallelTotal int, parallelNode int) (startIndex int, count int) { if length == 0 { return 0, 0 } // We have more nodes than tests. Trivial case. if parallelTotal >= length { if parallelNode > length { return 0, 0 } else { return parallelNode - 1, 1 } } // This is the minimum amount of tests that a node will be required to run minTestsPerNode := length / parallelTotal // This is the maximum amount of tests that a node will be required to run // The algorithm guarantees that this would be equal to at least the minimum amount // and at most one more maxTestsPerNode := minTestsPerNode if length%parallelTotal != 0 { maxTestsPerNode++ } // Number of nodes that will have to run the maximum amount of tests per node numMaxLoadNodes := length % parallelTotal // Number of nodes that precede the current node and will have to run the maximum amount of tests per node var numPrecedingMaxLoadNodes int if parallelNode > numMaxLoadNodes { numPrecedingMaxLoadNodes = numMaxLoadNodes } else { numPrecedingMaxLoadNodes = parallelNode - 1 } // Number of nodes that precede the current node and will have to run the minimum amount of tests per node var numPrecedingMinLoadNodes int if parallelNode <= numMaxLoadNodes { numPrecedingMinLoadNodes = 0 } else { numPrecedingMinLoadNodes = parallelNode - numMaxLoadNodes - 1 } // Evaluate the test start index and number of tests to run startIndex = numPrecedingMaxLoadNodes*maxTestsPerNode + numPrecedingMinLoadNodes*minTestsPerNode if parallelNode > numMaxLoadNodes { count = minTestsPerNode } else { count = maxTestsPerNode } return }
9,194
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/spec_iterator/parallel_spec_iterator.go
package spec_iterator import ( "encoding/json" "fmt" "net/http" "github.com/onsi/ginkgo/internal/spec" ) type ParallelIterator struct { specs []*spec.Spec host string client *http.Client } func NewParallelIterator(specs []*spec.Spec, host string) *ParallelIterator { return &ParallelIterator{ specs: specs, host: host, client: &http.Client{}, } } func (s *ParallelIterator) Next() (*spec.Spec, error) { resp, err := s.client.Get(s.host + "/counter") if err != nil { return nil, err } defer resp.Body.Close() if resp.StatusCode != http.StatusOK { return nil, fmt.Errorf("unexpected status code %d", resp.StatusCode) } var counter Counter err = json.NewDecoder(resp.Body).Decode(&counter) if err != nil { return nil, err } if counter.Index >= len(s.specs) { return nil, ErrClosed } return s.specs[counter.Index], nil } func (s *ParallelIterator) NumberOfSpecsPriorToIteration() int { return len(s.specs) } func (s *ParallelIterator) NumberOfSpecsToProcessIfKnown() (int, bool) { return -1, false } func (s *ParallelIterator) NumberOfSpecsThatWillBeRunIfKnown() (int, bool) { return -1, false }
9,195
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/spec_iterator/spec_iterator.go
package spec_iterator import ( "errors" "github.com/onsi/ginkgo/internal/spec" ) var ErrClosed = errors.New("no more specs to run") type SpecIterator interface { Next() (*spec.Spec, error) NumberOfSpecsPriorToIteration() int NumberOfSpecsToProcessIfKnown() (int, bool) NumberOfSpecsThatWillBeRunIfKnown() (int, bool) } type Counter struct { Index int `json:"index"` }
9,196
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/spec_iterator/sharded_parallel_spec_iterator.go
package spec_iterator import "github.com/onsi/ginkgo/internal/spec" type ShardedParallelIterator struct { specs []*spec.Spec index int maxIndex int } func NewShardedParallelIterator(specs []*spec.Spec, total int, node int) *ShardedParallelIterator { startIndex, count := ParallelizedIndexRange(len(specs), total, node) return &ShardedParallelIterator{ specs: specs, index: startIndex, maxIndex: startIndex + count, } } func (s *ShardedParallelIterator) Next() (*spec.Spec, error) { if s.index >= s.maxIndex { return nil, ErrClosed } spec := s.specs[s.index] s.index += 1 return spec, nil } func (s *ShardedParallelIterator) NumberOfSpecsPriorToIteration() int { return len(s.specs) } func (s *ShardedParallelIterator) NumberOfSpecsToProcessIfKnown() (int, bool) { return s.maxIndex - s.index, true } func (s *ShardedParallelIterator) NumberOfSpecsThatWillBeRunIfKnown() (int, bool) { count := 0 for i := s.index; i < s.maxIndex; i += 1 { if !s.specs[i].Skipped() && !s.specs[i].Pending() { count += 1 } } return count, true }
9,197
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/codelocation/code_location.go
package codelocation import ( "regexp" "runtime" "runtime/debug" "strings" "github.com/onsi/ginkgo/types" ) func New(skip int) types.CodeLocation { _, file, line, _ := runtime.Caller(skip + 1) stackTrace := PruneStack(string(debug.Stack()), skip+1) return types.CodeLocation{FileName: file, LineNumber: line, FullStackTrace: stackTrace} } // PruneStack removes references to functions that are internal to Ginkgo // and the Go runtime from a stack string and a certain number of stack entries // at the beginning of the stack. The stack string has the format // as returned by runtime/debug.Stack. The leading goroutine information is // optional and always removed if present. Beware that runtime/debug.Stack // adds itself as first entry, so typically skip must be >= 1 to remove that // entry. func PruneStack(fullStackTrace string, skip int) string { stack := strings.Split(fullStackTrace, "\n") // Ensure that the even entries are the method names and the // the odd entries the source code information. if len(stack) > 0 && strings.HasPrefix(stack[0], "goroutine ") { // Ignore "goroutine 29 [running]:" line. stack = stack[1:] } // The "+1" is for skipping over the initial entry, which is // runtime/debug.Stack() itself. if len(stack) > 2*(skip+1) { stack = stack[2*(skip+1):] } prunedStack := []string{} re := regexp.MustCompile(`\/ginkgo\/|\/pkg\/testing\/|\/pkg\/runtime\/`) for i := 0; i < len(stack)/2; i++ { // We filter out based on the source code file name. if !re.Match([]byte(stack[i*2+1])) { prunedStack = append(prunedStack, stack[i*2]) prunedStack = append(prunedStack, stack[i*2+1]) } } return strings.Join(prunedStack, "\n") }
9,198
0
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal
kubeflow_public_repos/fate-operator/vendor/github.com/onsi/ginkgo/internal/testingtproxy/testing_t_proxy.go
package testingtproxy import ( "fmt" "io" ) type failFunc func(message string, callerSkip ...int) type skipFunc func(message string, callerSkip ...int) type failedFunc func() bool type nameFunc func() string func New(writer io.Writer, fail failFunc, skip skipFunc, failed failedFunc, name nameFunc, offset int) *ginkgoTestingTProxy { return &ginkgoTestingTProxy{ fail: fail, offset: offset, writer: writer, skip: skip, failed: failed, name: name, } } type ginkgoTestingTProxy struct { fail failFunc skip skipFunc failed failedFunc name nameFunc offset int writer io.Writer } func (t *ginkgoTestingTProxy) Cleanup(func()) { // No-op } func (t *ginkgoTestingTProxy) Error(args ...interface{}) { t.fail(fmt.Sprintln(args...), t.offset) } func (t *ginkgoTestingTProxy) Errorf(format string, args ...interface{}) { t.fail(fmt.Sprintf(format, args...), t.offset) } func (t *ginkgoTestingTProxy) Fail() { t.fail("failed", t.offset) } func (t *ginkgoTestingTProxy) FailNow() { t.fail("failed", t.offset) } func (t *ginkgoTestingTProxy) Failed() bool { return t.failed() } func (t *ginkgoTestingTProxy) Fatal(args ...interface{}) { t.fail(fmt.Sprintln(args...), t.offset) } func (t *ginkgoTestingTProxy) Fatalf(format string, args ...interface{}) { t.fail(fmt.Sprintf(format, args...), t.offset) } func (t *ginkgoTestingTProxy) Helper() { // No-op } func (t *ginkgoTestingTProxy) Log(args ...interface{}) { fmt.Fprintln(t.writer, args...) } func (t *ginkgoTestingTProxy) Logf(format string, args ...interface{}) { t.Log(fmt.Sprintf(format, args...)) } func (t *ginkgoTestingTProxy) Name() string { return t.name() } func (t *ginkgoTestingTProxy) Parallel() { // No-op } func (t *ginkgoTestingTProxy) Skip(args ...interface{}) { t.skip(fmt.Sprintln(args...), t.offset) } func (t *ginkgoTestingTProxy) SkipNow() { t.skip("skip", t.offset) } func (t *ginkgoTestingTProxy) Skipf(format string, args ...interface{}) { t.skip(fmt.Sprintf(format, args...), t.offset) } func (t *ginkgoTestingTProxy) Skipped() bool { return false } func (t *ginkgoTestingTProxy) TempDir() string { // No-op return "" }
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