// package vocab import ( "fmt" "net/url" "time" ) // PersonType is an interface for accepting types that extend from 'Person'. type PersonType interface { Serializer Deserializer IsAltitude() (ok bool) GetAltitude() (v float64) SetAltitude(v float64) IsAltitudeIRI() (ok bool) GetAltitudeIRI() (v *url.URL) SetAltitudeIRI(v *url.URL) AttachmentLen() (l int) IsAttachmentObject(index int) (ok bool) GetAttachmentObject(index int) (v ObjectType) AppendAttachmentObject(v ObjectType) PrependAttachmentObject(v ObjectType) RemoveAttachmentObject(index int) IsAttachmentLink(index int) (ok bool) GetAttachmentLink(index int) (v LinkType) AppendAttachmentLink(v LinkType) PrependAttachmentLink(v LinkType) RemoveAttachmentLink(index int) IsAttachmentIRI(index int) (ok bool) GetAttachmentIRI(index int) (v *url.URL) AppendAttachmentIRI(v *url.URL) PrependAttachmentIRI(v *url.URL) RemoveAttachmentIRI(index int) AttributedToLen() (l int) IsAttributedToObject(index int) (ok bool) GetAttributedToObject(index int) (v ObjectType) AppendAttributedToObject(v ObjectType) PrependAttributedToObject(v ObjectType) RemoveAttributedToObject(index int) IsAttributedToLink(index int) (ok bool) GetAttributedToLink(index int) (v LinkType) AppendAttributedToLink(v LinkType) PrependAttributedToLink(v LinkType) RemoveAttributedToLink(index int) IsAttributedToIRI(index int) (ok bool) GetAttributedToIRI(index int) (v *url.URL) AppendAttributedToIRI(v *url.URL) PrependAttributedToIRI(v *url.URL) RemoveAttributedToIRI(index int) AudienceLen() (l int) IsAudienceObject(index int) (ok bool) GetAudienceObject(index int) (v ObjectType) AppendAudienceObject(v ObjectType) PrependAudienceObject(v ObjectType) RemoveAudienceObject(index int) IsAudienceLink(index int) (ok bool) GetAudienceLink(index int) (v LinkType) AppendAudienceLink(v LinkType) PrependAudienceLink(v LinkType) RemoveAudienceLink(index int) IsAudienceIRI(index int) (ok bool) GetAudienceIRI(index int) (v *url.URL) AppendAudienceIRI(v *url.URL) PrependAudienceIRI(v *url.URL) RemoveAudienceIRI(index int) ContentLen() (l int) IsContentString(index int) (ok bool) GetContentString(index int) (v string) AppendContentString(v string) PrependContentString(v string) RemoveContentString(index int) IsContentLangString(index int) (ok bool) GetContentLangString(index int) (v string) AppendContentLangString(v string) PrependContentLangString(v string) RemoveContentLangString(index int) IsContentIRI(index int) (ok bool) GetContentIRI(index int) (v *url.URL) AppendContentIRI(v *url.URL) PrependContentIRI(v *url.URL) RemoveContentIRI(index int) ContentMapLanguages() (l []string) GetContentMap(l string) (v string) SetContentMap(l string, v string) ContextLen() (l int) IsContextObject(index int) (ok bool) GetContextObject(index int) (v ObjectType) AppendContextObject(v ObjectType) PrependContextObject(v ObjectType) RemoveContextObject(index int) IsContextLink(index int) (ok bool) GetContextLink(index int) (v LinkType) AppendContextLink(v LinkType) PrependContextLink(v LinkType) RemoveContextLink(index int) IsContextIRI(index int) (ok bool) GetContextIRI(index int) (v *url.URL) AppendContextIRI(v *url.URL) PrependContextIRI(v *url.URL) RemoveContextIRI(index int) NameLen() (l int) IsNameString(index int) (ok bool) GetNameString(index int) (v string) AppendNameString(v string) PrependNameString(v string) RemoveNameString(index int) IsNameLangString(index int) (ok bool) GetNameLangString(index int) (v string) AppendNameLangString(v string) PrependNameLangString(v string) RemoveNameLangString(index int) IsNameIRI(index int) (ok bool) GetNameIRI(index int) (v *url.URL) AppendNameIRI(v *url.URL) PrependNameIRI(v *url.URL) RemoveNameIRI(index int) NameMapLanguages() (l []string) GetNameMap(l string) (v string) SetNameMap(l string, v string) IsEndTime() (ok bool) GetEndTime() (v time.Time) SetEndTime(v time.Time) IsEndTimeIRI() (ok bool) GetEndTimeIRI() (v *url.URL) SetEndTimeIRI(v *url.URL) GeneratorLen() (l int) IsGeneratorObject(index int) (ok bool) GetGeneratorObject(index int) (v ObjectType) AppendGeneratorObject(v ObjectType) PrependGeneratorObject(v ObjectType) RemoveGeneratorObject(index int) IsGeneratorLink(index int) (ok bool) GetGeneratorLink(index int) (v LinkType) AppendGeneratorLink(v LinkType) PrependGeneratorLink(v LinkType) RemoveGeneratorLink(index int) IsGeneratorIRI(index int) (ok bool) GetGeneratorIRI(index int) (v *url.URL) AppendGeneratorIRI(v *url.URL) PrependGeneratorIRI(v *url.URL) RemoveGeneratorIRI(index int) IconLen() (l int) IsIconImage(index int) (ok bool) GetIconImage(index int) (v ImageType) AppendIconImage(v ImageType) PrependIconImage(v ImageType) RemoveIconImage(index int) IsIconLink(index int) (ok bool) GetIconLink(index int) (v LinkType) AppendIconLink(v LinkType) PrependIconLink(v LinkType) RemoveIconLink(index int) IsIconIRI(index int) (ok bool) GetIconIRI(index int) (v *url.URL) AppendIconIRI(v *url.URL) PrependIconIRI(v *url.URL) RemoveIconIRI(index int) HasId() (ok bool) GetId() (v *url.URL) SetId(v *url.URL) HasUnknownId() (ok bool) GetUnknownId() (v interface{}) SetUnknownId(i interface{}) ImageLen() (l int) IsImageImage(index int) (ok bool) GetImageImage(index int) (v ImageType) AppendImageImage(v ImageType) PrependImageImage(v ImageType) RemoveImageImage(index int) IsImageLink(index int) (ok bool) GetImageLink(index int) (v LinkType) AppendImageLink(v LinkType) PrependImageLink(v LinkType) RemoveImageLink(index int) IsImageIRI(index int) (ok bool) GetImageIRI(index int) (v *url.URL) AppendImageIRI(v *url.URL) PrependImageIRI(v *url.URL) RemoveImageIRI(index int) InReplyToLen() (l int) IsInReplyToObject(index int) (ok bool) GetInReplyToObject(index int) (v ObjectType) AppendInReplyToObject(v ObjectType) PrependInReplyToObject(v ObjectType) RemoveInReplyToObject(index int) IsInReplyToLink(index int) (ok bool) GetInReplyToLink(index int) (v LinkType) AppendInReplyToLink(v LinkType) PrependInReplyToLink(v LinkType) RemoveInReplyToLink(index int) IsInReplyToIRI(index int) (ok bool) GetInReplyToIRI(index int) (v *url.URL) AppendInReplyToIRI(v *url.URL) PrependInReplyToIRI(v *url.URL) RemoveInReplyToIRI(index int) LocationLen() (l int) IsLocationObject(index int) (ok bool) GetLocationObject(index int) (v ObjectType) AppendLocationObject(v ObjectType) PrependLocationObject(v ObjectType) RemoveLocationObject(index int) IsLocationLink(index int) (ok bool) GetLocationLink(index int) (v LinkType) AppendLocationLink(v LinkType) PrependLocationLink(v LinkType) RemoveLocationLink(index int) IsLocationIRI(index int) (ok bool) GetLocationIRI(index int) (v *url.URL) AppendLocationIRI(v *url.URL) PrependLocationIRI(v *url.URL) RemoveLocationIRI(index int) PreviewLen() (l int) IsPreviewObject(index int) (ok bool) GetPreviewObject(index int) (v ObjectType) AppendPreviewObject(v ObjectType) PrependPreviewObject(v ObjectType) RemovePreviewObject(index int) IsPreviewLink(index int) (ok bool) GetPreviewLink(index int) (v LinkType) AppendPreviewLink(v LinkType) PrependPreviewLink(v LinkType) RemovePreviewLink(index int) IsPreviewIRI(index int) (ok bool) GetPreviewIRI(index int) (v *url.URL) AppendPreviewIRI(v *url.URL) PrependPreviewIRI(v *url.URL) RemovePreviewIRI(index int) IsPublished() (ok bool) GetPublished() (v time.Time) SetPublished(v time.Time) IsPublishedIRI() (ok bool) GetPublishedIRI() (v *url.URL) SetPublishedIRI(v *url.URL) IsReplies() (ok bool) GetReplies() (v CollectionType) SetReplies(v CollectionType) IsRepliesIRI() (ok bool) GetRepliesIRI() (v *url.URL) SetRepliesIRI(v *url.URL) IsStartTime() (ok bool) GetStartTime() (v time.Time) SetStartTime(v time.Time) IsStartTimeIRI() (ok bool) GetStartTimeIRI() (v *url.URL) SetStartTimeIRI(v *url.URL) SummaryLen() (l int) IsSummaryString(index int) (ok bool) GetSummaryString(index int) (v string) AppendSummaryString(v string) PrependSummaryString(v string) RemoveSummaryString(index int) IsSummaryLangString(index int) (ok bool) GetSummaryLangString(index int) (v string) AppendSummaryLangString(v string) PrependSummaryLangString(v string) RemoveSummaryLangString(index int) IsSummaryIRI(index int) (ok bool) GetSummaryIRI(index int) (v *url.URL) AppendSummaryIRI(v *url.URL) PrependSummaryIRI(v *url.URL) RemoveSummaryIRI(index int) SummaryMapLanguages() (l []string) GetSummaryMap(l string) (v string) SetSummaryMap(l string, v string) TagLen() (l int) IsTagObject(index int) (ok bool) GetTagObject(index int) (v ObjectType) AppendTagObject(v ObjectType) PrependTagObject(v ObjectType) RemoveTagObject(index int) IsTagLink(index int) (ok bool) GetTagLink(index int) (v LinkType) AppendTagLink(v LinkType) PrependTagLink(v LinkType) RemoveTagLink(index int) IsTagIRI(index int) (ok bool) GetTagIRI(index int) (v *url.URL) AppendTagIRI(v *url.URL) PrependTagIRI(v *url.URL) RemoveTagIRI(index int) TypeLen() (l int) GetType(index int) (v interface{}) AppendType(v interface{}) PrependType(v interface{}) RemoveType(index int) IsUpdated() (ok bool) GetUpdated() (v time.Time) SetUpdated(v time.Time) IsUpdatedIRI() (ok bool) GetUpdatedIRI() (v *url.URL) SetUpdatedIRI(v *url.URL) UrlLen() (l int) IsUrlAnyURI(index int) (ok bool) GetUrlAnyURI(index int) (v *url.URL) AppendUrlAnyURI(v *url.URL) PrependUrlAnyURI(v *url.URL) RemoveUrlAnyURI(index int) IsUrlLink(index int) (ok bool) GetUrlLink(index int) (v LinkType) AppendUrlLink(v LinkType) PrependUrlLink(v LinkType) RemoveUrlLink(index int) ToLen() (l int) IsToObject(index int) (ok bool) GetToObject(index int) (v ObjectType) AppendToObject(v ObjectType) PrependToObject(v ObjectType) RemoveToObject(index int) IsToLink(index int) (ok bool) GetToLink(index int) (v LinkType) AppendToLink(v LinkType) PrependToLink(v LinkType) RemoveToLink(index int) IsToIRI(index int) (ok bool) GetToIRI(index int) (v *url.URL) AppendToIRI(v *url.URL) PrependToIRI(v *url.URL) RemoveToIRI(index int) BtoLen() (l int) IsBtoObject(index int) (ok bool) GetBtoObject(index int) (v ObjectType) AppendBtoObject(v ObjectType) PrependBtoObject(v ObjectType) RemoveBtoObject(index int) IsBtoLink(index int) (ok bool) GetBtoLink(index int) (v LinkType) AppendBtoLink(v LinkType) PrependBtoLink(v LinkType) RemoveBtoLink(index int) IsBtoIRI(index int) (ok bool) GetBtoIRI(index int) (v *url.URL) AppendBtoIRI(v *url.URL) PrependBtoIRI(v *url.URL) RemoveBtoIRI(index int) CcLen() (l int) IsCcObject(index int) (ok bool) GetCcObject(index int) (v ObjectType) AppendCcObject(v ObjectType) PrependCcObject(v ObjectType) RemoveCcObject(index int) IsCcLink(index int) (ok bool) GetCcLink(index int) (v LinkType) AppendCcLink(v LinkType) PrependCcLink(v LinkType) RemoveCcLink(index int) IsCcIRI(index int) (ok bool) GetCcIRI(index int) (v *url.URL) AppendCcIRI(v *url.URL) PrependCcIRI(v *url.URL) RemoveCcIRI(index int) BccLen() (l int) IsBccObject(index int) (ok bool) GetBccObject(index int) (v ObjectType) AppendBccObject(v ObjectType) PrependBccObject(v ObjectType) RemoveBccObject(index int) IsBccLink(index int) (ok bool) GetBccLink(index int) (v LinkType) AppendBccLink(v LinkType) PrependBccLink(v LinkType) RemoveBccLink(index int) IsBccIRI(index int) (ok bool) GetBccIRI(index int) (v *url.URL) AppendBccIRI(v *url.URL) PrependBccIRI(v *url.URL) RemoveBccIRI(index int) IsMediaType() (ok bool) GetMediaType() (v string) SetMediaType(v string) IsMediaTypeIRI() (ok bool) GetMediaTypeIRI() (v *url.URL) SetMediaTypeIRI(v *url.URL) IsDuration() (ok bool) GetDuration() (v time.Duration) SetDuration(v time.Duration) IsDurationIRI() (ok bool) GetDurationIRI() (v *url.URL) SetDurationIRI(v *url.URL) IsSource() (ok bool) GetSource() (v ObjectType) SetSource(v ObjectType) IsSourceIRI() (ok bool) GetSourceIRI() (v *url.URL) SetSourceIRI(v *url.URL) IsInboxOrderedCollection() (ok bool) GetInboxOrderedCollection() (v OrderedCollectionType) SetInboxOrderedCollection(v OrderedCollectionType) IsInboxAnyURI() (ok bool) GetInboxAnyURI() (v *url.URL) SetInboxAnyURI(v *url.URL) IsOutboxOrderedCollection() (ok bool) GetOutboxOrderedCollection() (v OrderedCollectionType) SetOutboxOrderedCollection(v OrderedCollectionType) IsOutboxAnyURI() (ok bool) GetOutboxAnyURI() (v *url.URL) SetOutboxAnyURI(v *url.URL) IsFollowingCollection() (ok bool) GetFollowingCollection() (v CollectionType) SetFollowingCollection(v CollectionType) IsFollowingOrderedCollection() (ok bool) GetFollowingOrderedCollection() (v OrderedCollectionType) SetFollowingOrderedCollection(v OrderedCollectionType) IsFollowingAnyURI() (ok bool) GetFollowingAnyURI() (v *url.URL) SetFollowingAnyURI(v *url.URL) IsFollowersCollection() (ok bool) GetFollowersCollection() (v CollectionType) SetFollowersCollection(v CollectionType) IsFollowersOrderedCollection() (ok bool) GetFollowersOrderedCollection() (v OrderedCollectionType) SetFollowersOrderedCollection(v OrderedCollectionType) IsFollowersAnyURI() (ok bool) GetFollowersAnyURI() (v *url.URL) SetFollowersAnyURI(v *url.URL) IsLikedCollection() (ok bool) GetLikedCollection() (v CollectionType) SetLikedCollection(v CollectionType) IsLikedOrderedCollection() (ok bool) GetLikedOrderedCollection() (v OrderedCollectionType) SetLikedOrderedCollection(v OrderedCollectionType) IsLikedAnyURI() (ok bool) GetLikedAnyURI() (v *url.URL) SetLikedAnyURI(v *url.URL) IsLikesCollection() (ok bool) GetLikesCollection() (v CollectionType) SetLikesCollection(v CollectionType) IsLikesOrderedCollection() (ok bool) GetLikesOrderedCollection() (v OrderedCollectionType) SetLikesOrderedCollection(v OrderedCollectionType) IsLikesAnyURI() (ok bool) GetLikesAnyURI() (v *url.URL) SetLikesAnyURI(v *url.URL) StreamsLen() (l int) GetStreams(index int) (v *url.URL) AppendStreams(v *url.URL) PrependStreams(v *url.URL) RemoveStreams(index int) HasUnknownStreams() (ok bool) GetUnknownStreams() (v interface{}) SetUnknownStreams(i interface{}) IsPreferredUsername() (ok bool) GetPreferredUsername() (v string) SetPreferredUsername(v string) IsPreferredUsernameIRI() (ok bool) GetPreferredUsernameIRI() (v *url.URL) SetPreferredUsernameIRI(v *url.URL) PreferredUsernameMapLanguages() (l []string) GetPreferredUsernameMap(l string) (v string) SetPreferredUsernameMap(l string, v string) IsEndpoints() (ok bool) GetEndpoints() (v ObjectType) SetEndpoints(v ObjectType) IsEndpointsIRI() (ok bool) GetEndpointsIRI() (v *url.URL) SetEndpointsIRI(v *url.URL) HasProxyUrl() (ok bool) GetProxyUrl() (v *url.URL) SetProxyUrl(v *url.URL) HasUnknownProxyUrl() (ok bool) GetUnknownProxyUrl() (v interface{}) SetUnknownProxyUrl(i interface{}) HasOauthAuthorizationEndpoint() (ok bool) GetOauthAuthorizationEndpoint() (v *url.URL) SetOauthAuthorizationEndpoint(v *url.URL) HasUnknownOauthAuthorizationEndpoint() (ok bool) GetUnknownOauthAuthorizationEndpoint() (v interface{}) SetUnknownOauthAuthorizationEndpoint(i interface{}) HasOauthTokenEndpoint() (ok bool) GetOauthTokenEndpoint() (v *url.URL) SetOauthTokenEndpoint(v *url.URL) HasUnknownOauthTokenEndpoint() (ok bool) GetUnknownOauthTokenEndpoint() (v interface{}) SetUnknownOauthTokenEndpoint(i interface{}) HasProvideClientKey() (ok bool) GetProvideClientKey() (v *url.URL) SetProvideClientKey(v *url.URL) HasUnknownProvideClientKey() (ok bool) GetUnknownProvideClientKey() (v interface{}) SetUnknownProvideClientKey(i interface{}) HasSignClientKey() (ok bool) GetSignClientKey() (v *url.URL) SetSignClientKey(v *url.URL) HasUnknownSignClientKey() (ok bool) GetUnknownSignClientKey() (v interface{}) SetUnknownSignClientKey(i interface{}) HasSharedInbox() (ok bool) GetSharedInbox() (v *url.URL) SetSharedInbox(v *url.URL) HasUnknownSharedInbox() (ok bool) GetUnknownSharedInbox() (v interface{}) SetUnknownSharedInbox(i interface{}) } // Represents an individual person. type Person struct { // An unknown value. unknown_ map[string]interface{} // The functional 'altitude' value could have multiple types, but only a single value altitude *altitudePersonIntermediateType // The 'attachment' value could have multiple types and values attachment []*attachmentPersonIntermediateType // The 'attributedTo' value could have multiple types and values attributedTo []*attributedToPersonIntermediateType // The 'audience' value could have multiple types and values audience []*audiencePersonIntermediateType // The 'content' value could have multiple types and values content []*contentPersonIntermediateType // The 'contentMap' value holds language-specific values for property 'content' contentMap map[string]string // The 'context' value could have multiple types and values context []*contextPersonIntermediateType // The 'name' value could have multiple types and values name []*namePersonIntermediateType // The 'nameMap' value holds language-specific values for property 'name' nameMap map[string]string // The functional 'endTime' value could have multiple types, but only a single value endTime *endTimePersonIntermediateType // The 'generator' value could have multiple types and values generator []*generatorPersonIntermediateType // The 'icon' value could have multiple types and values icon []*iconPersonIntermediateType // The functional 'id' value holds a single type and a single value id *url.URL // The 'image' value could have multiple types and values image []*imagePersonIntermediateType // The 'inReplyTo' value could have multiple types and values inReplyTo []*inReplyToPersonIntermediateType // The 'location' value could have multiple types and values location []*locationPersonIntermediateType // The 'preview' value could have multiple types and values preview []*previewPersonIntermediateType // The functional 'published' value could have multiple types, but only a single value published *publishedPersonIntermediateType // The functional 'replies' value could have multiple types, but only a single value replies *repliesPersonIntermediateType // The functional 'startTime' value could have multiple types, but only a single value startTime *startTimePersonIntermediateType // The 'summary' value could have multiple types and values summary []*summaryPersonIntermediateType // The 'summaryMap' value holds language-specific values for property 'summary' summaryMap map[string]string // The 'tag' value could have multiple types and values tag []*tagPersonIntermediateType // The 'type' value can hold any type and any number of values typeName []interface{} // The functional 'updated' value could have multiple types, but only a single value updated *updatedPersonIntermediateType // The 'url' value could have multiple types and values url []*urlPersonIntermediateType // The 'to' value could have multiple types and values to []*toPersonIntermediateType // The 'bto' value could have multiple types and values bto []*btoPersonIntermediateType // The 'cc' value could have multiple types and values cc []*ccPersonIntermediateType // The 'bcc' value could have multiple types and values bcc []*bccPersonIntermediateType // The functional 'mediaType' value could have multiple types, but only a single value mediaType *mediaTypePersonIntermediateType // The functional 'duration' value could have multiple types, but only a single value duration *durationPersonIntermediateType // The functional 'source' value could have multiple types, but only a single value source *sourcePersonIntermediateType // The functional 'inbox' value could have multiple types, but only a single value inbox *inboxPersonIntermediateType // The functional 'outbox' value could have multiple types, but only a single value outbox *outboxPersonIntermediateType // The functional 'following' value could have multiple types, but only a single value following *followingPersonIntermediateType // The functional 'followers' value could have multiple types, but only a single value followers *followersPersonIntermediateType // The functional 'liked' value could have multiple types, but only a single value liked *likedPersonIntermediateType // The functional 'likes' value could have multiple types, but only a single value likes *likesPersonIntermediateType // The 'streams' value holds a single type and any number of values streams []*url.URL // The functional 'preferredUsername' value could have multiple types, but only a single value preferredUsername *preferredUsernamePersonIntermediateType // The 'preferredUsernameMap' value holds language-specific values for property 'preferredUsername' preferredUsernameMap map[string]string // The functional 'endpoints' value could have multiple types, but only a single value endpoints *endpointsPersonIntermediateType // The functional 'proxyUrl' value holds a single type and a single value proxyUrl *url.URL // The functional 'oauthAuthorizationEndpoint' value holds a single type and a single value oauthAuthorizationEndpoint *url.URL // The functional 'oauthTokenEndpoint' value holds a single type and a single value oauthTokenEndpoint *url.URL // The functional 'provideClientKey' value holds a single type and a single value provideClientKey *url.URL // The functional 'signClientKey' value holds a single type and a single value signClientKey *url.URL // The functional 'sharedInbox' value holds a single type and a single value sharedInbox *url.URL } // IsAltitude determines whether the call to GetAltitude is safe func (t *Person) IsAltitude() (ok bool) { return t.altitude != nil && t.altitude.float != nil } // GetAltitude returns the value safely if IsAltitude returned true func (t *Person) GetAltitude() (v float64) { return *t.altitude.float } // SetAltitude sets the value of altitude to be of float64 type func (t *Person) SetAltitude(v float64) { t.altitude = &altitudePersonIntermediateType{float: &v} } // IsAltitudeIRI determines whether the call to GetAltitudeIRI is safe func (t *Person) IsAltitudeIRI() (ok bool) { return t.altitude != nil && t.altitude.IRI != nil } // GetAltitudeIRI returns the value safely if IsAltitudeIRI returned true func (t *Person) GetAltitudeIRI() (v *url.URL) { return t.altitude.IRI } // SetAltitudeIRI sets the value of altitude to be of *url.URL type func (t *Person) SetAltitudeIRI(v *url.URL) { t.altitude = &altitudePersonIntermediateType{IRI: v} } // HasUnknownAltitude determines whether the call to GetUnknownAltitude is safe func (t *Person) HasUnknownAltitude() (ok bool) { return t.altitude != nil && t.altitude.unknown_ != nil } // GetUnknownAltitude returns the unknown value for altitude func (t *Person) GetUnknownAltitude() (v interface{}) { return t.altitude.unknown_ } // SetUnknownAltitude sets the unknown value of altitude func (t *Person) SetUnknownAltitude(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &altitudePersonIntermediateType{} tmp.unknown_ = i t.altitude = tmp } // AttachmentLen determines the number of elements able to be used for the IsAttachmentObject, GetAttachmentObject, and RemoveAttachmentObject functions func (t *Person) AttachmentLen() (l int) { return len(t.attachment) } // IsAttachmentObject determines whether the call to GetAttachmentObject is safe for the specified index func (t *Person) IsAttachmentObject(index int) (ok bool) { return t.attachment[index].Object != nil } // GetAttachmentObject returns the value safely if IsAttachmentObject returned true for the specified index func (t *Person) GetAttachmentObject(index int) (v ObjectType) { return t.attachment[index].Object } // AppendAttachmentObject adds to the back of attachment a ObjectType type func (t *Person) AppendAttachmentObject(v ObjectType) { t.attachment = append(t.attachment, &attachmentPersonIntermediateType{Object: v}) } // PrependAttachmentObject adds to the front of attachment a ObjectType type func (t *Person) PrependAttachmentObject(v ObjectType) { t.attachment = append([]*attachmentPersonIntermediateType{&attachmentPersonIntermediateType{Object: v}}, t.attachment...) } // RemoveAttachmentObject deletes the value from the specified index func (t *Person) RemoveAttachmentObject(index int) { copy(t.attachment[index:], t.attachment[index+1:]) t.attachment[len(t.attachment)-1] = nil t.attachment = t.attachment[:len(t.attachment)-1] } // IsAttachmentLink determines whether the call to GetAttachmentLink is safe for the specified index func (t *Person) IsAttachmentLink(index int) (ok bool) { return t.attachment[index].Link != nil } // GetAttachmentLink returns the value safely if IsAttachmentLink returned true for the specified index func (t *Person) GetAttachmentLink(index int) (v LinkType) { return t.attachment[index].Link } // AppendAttachmentLink adds to the back of attachment a LinkType type func (t *Person) AppendAttachmentLink(v LinkType) { t.attachment = append(t.attachment, &attachmentPersonIntermediateType{Link: v}) } // PrependAttachmentLink adds to the front of attachment a LinkType type func (t *Person) PrependAttachmentLink(v LinkType) { t.attachment = append([]*attachmentPersonIntermediateType{&attachmentPersonIntermediateType{Link: v}}, t.attachment...) } // RemoveAttachmentLink deletes the value from the specified index func (t *Person) RemoveAttachmentLink(index int) { copy(t.attachment[index:], t.attachment[index+1:]) t.attachment[len(t.attachment)-1] = nil t.attachment = t.attachment[:len(t.attachment)-1] } // IsAttachmentIRI determines whether the call to GetAttachmentIRI is safe for the specified index func (t *Person) IsAttachmentIRI(index int) (ok bool) { return t.attachment[index].IRI != nil } // GetAttachmentIRI returns the value safely if IsAttachmentIRI returned true for the specified index func (t *Person) GetAttachmentIRI(index int) (v *url.URL) { return t.attachment[index].IRI } // AppendAttachmentIRI adds to the back of attachment a *url.URL type func (t *Person) AppendAttachmentIRI(v *url.URL) { t.attachment = append(t.attachment, &attachmentPersonIntermediateType{IRI: v}) } // PrependAttachmentIRI adds to the front of attachment a *url.URL type func (t *Person) PrependAttachmentIRI(v *url.URL) { t.attachment = append([]*attachmentPersonIntermediateType{&attachmentPersonIntermediateType{IRI: v}}, t.attachment...) } // RemoveAttachmentIRI deletes the value from the specified index func (t *Person) RemoveAttachmentIRI(index int) { copy(t.attachment[index:], t.attachment[index+1:]) t.attachment[len(t.attachment)-1] = nil t.attachment = t.attachment[:len(t.attachment)-1] } // HasUnknownAttachment determines whether the call to GetUnknownAttachment is safe func (t *Person) HasUnknownAttachment() (ok bool) { return t.attachment != nil && t.attachment[0].unknown_ != nil } // GetUnknownAttachment returns the unknown value for attachment func (t *Person) GetUnknownAttachment() (v interface{}) { return t.attachment[0].unknown_ } // SetUnknownAttachment sets the unknown value of attachment func (t *Person) SetUnknownAttachment(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &attachmentPersonIntermediateType{} tmp.unknown_ = i t.attachment = append(t.attachment, tmp) } // AttributedToLen determines the number of elements able to be used for the IsAttributedToObject, GetAttributedToObject, and RemoveAttributedToObject functions func (t *Person) AttributedToLen() (l int) { return len(t.attributedTo) } // IsAttributedToObject determines whether the call to GetAttributedToObject is safe for the specified index func (t *Person) IsAttributedToObject(index int) (ok bool) { return t.attributedTo[index].Object != nil } // GetAttributedToObject returns the value safely if IsAttributedToObject returned true for the specified index func (t *Person) GetAttributedToObject(index int) (v ObjectType) { return t.attributedTo[index].Object } // AppendAttributedToObject adds to the back of attributedTo a ObjectType type func (t *Person) AppendAttributedToObject(v ObjectType) { t.attributedTo = append(t.attributedTo, &attributedToPersonIntermediateType{Object: v}) } // PrependAttributedToObject adds to the front of attributedTo a ObjectType type func (t *Person) PrependAttributedToObject(v ObjectType) { t.attributedTo = append([]*attributedToPersonIntermediateType{&attributedToPersonIntermediateType{Object: v}}, t.attributedTo...) } // RemoveAttributedToObject deletes the value from the specified index func (t *Person) RemoveAttributedToObject(index int) { copy(t.attributedTo[index:], t.attributedTo[index+1:]) t.attributedTo[len(t.attributedTo)-1] = nil t.attributedTo = t.attributedTo[:len(t.attributedTo)-1] } // IsAttributedToLink determines whether the call to GetAttributedToLink is safe for the specified index func (t *Person) IsAttributedToLink(index int) (ok bool) { return t.attributedTo[index].Link != nil } // GetAttributedToLink returns the value safely if IsAttributedToLink returned true for the specified index func (t *Person) GetAttributedToLink(index int) (v LinkType) { return t.attributedTo[index].Link } // AppendAttributedToLink adds to the back of attributedTo a LinkType type func (t *Person) AppendAttributedToLink(v LinkType) { t.attributedTo = append(t.attributedTo, &attributedToPersonIntermediateType{Link: v}) } // PrependAttributedToLink adds to the front of attributedTo a LinkType type func (t *Person) PrependAttributedToLink(v LinkType) { t.attributedTo = append([]*attributedToPersonIntermediateType{&attributedToPersonIntermediateType{Link: v}}, t.attributedTo...) } // RemoveAttributedToLink deletes the value from the specified index func (t *Person) RemoveAttributedToLink(index int) { copy(t.attributedTo[index:], t.attributedTo[index+1:]) t.attributedTo[len(t.attributedTo)-1] = nil t.attributedTo = t.attributedTo[:len(t.attributedTo)-1] } // IsAttributedToIRI determines whether the call to GetAttributedToIRI is safe for the specified index func (t *Person) IsAttributedToIRI(index int) (ok bool) { return t.attributedTo[index].IRI != nil } // GetAttributedToIRI returns the value safely if IsAttributedToIRI returned true for the specified index func (t *Person) GetAttributedToIRI(index int) (v *url.URL) { return t.attributedTo[index].IRI } // AppendAttributedToIRI adds to the back of attributedTo a *url.URL type func (t *Person) AppendAttributedToIRI(v *url.URL) { t.attributedTo = append(t.attributedTo, &attributedToPersonIntermediateType{IRI: v}) } // PrependAttributedToIRI adds to the front of attributedTo a *url.URL type func (t *Person) PrependAttributedToIRI(v *url.URL) { t.attributedTo = append([]*attributedToPersonIntermediateType{&attributedToPersonIntermediateType{IRI: v}}, t.attributedTo...) } // RemoveAttributedToIRI deletes the value from the specified index func (t *Person) RemoveAttributedToIRI(index int) { copy(t.attributedTo[index:], t.attributedTo[index+1:]) t.attributedTo[len(t.attributedTo)-1] = nil t.attributedTo = t.attributedTo[:len(t.attributedTo)-1] } // HasUnknownAttributedTo determines whether the call to GetUnknownAttributedTo is safe func (t *Person) HasUnknownAttributedTo() (ok bool) { return t.attributedTo != nil && t.attributedTo[0].unknown_ != nil } // GetUnknownAttributedTo returns the unknown value for attributedTo func (t *Person) GetUnknownAttributedTo() (v interface{}) { return t.attributedTo[0].unknown_ } // SetUnknownAttributedTo sets the unknown value of attributedTo func (t *Person) SetUnknownAttributedTo(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &attributedToPersonIntermediateType{} tmp.unknown_ = i t.attributedTo = append(t.attributedTo, tmp) } // AudienceLen determines the number of elements able to be used for the IsAudienceObject, GetAudienceObject, and RemoveAudienceObject functions func (t *Person) AudienceLen() (l int) { return len(t.audience) } // IsAudienceObject determines whether the call to GetAudienceObject is safe for the specified index func (t *Person) IsAudienceObject(index int) (ok bool) { return t.audience[index].Object != nil } // GetAudienceObject returns the value safely if IsAudienceObject returned true for the specified index func (t *Person) GetAudienceObject(index int) (v ObjectType) { return t.audience[index].Object } // AppendAudienceObject adds to the back of audience a ObjectType type func (t *Person) AppendAudienceObject(v ObjectType) { t.audience = append(t.audience, &audiencePersonIntermediateType{Object: v}) } // PrependAudienceObject adds to the front of audience a ObjectType type func (t *Person) PrependAudienceObject(v ObjectType) { t.audience = append([]*audiencePersonIntermediateType{&audiencePersonIntermediateType{Object: v}}, t.audience...) } // RemoveAudienceObject deletes the value from the specified index func (t *Person) RemoveAudienceObject(index int) { copy(t.audience[index:], t.audience[index+1:]) t.audience[len(t.audience)-1] = nil t.audience = t.audience[:len(t.audience)-1] } // IsAudienceLink determines whether the call to GetAudienceLink is safe for the specified index func (t *Person) IsAudienceLink(index int) (ok bool) { return t.audience[index].Link != nil } // GetAudienceLink returns the value safely if IsAudienceLink returned true for the specified index func (t *Person) GetAudienceLink(index int) (v LinkType) { return t.audience[index].Link } // AppendAudienceLink adds to the back of audience a LinkType type func (t *Person) AppendAudienceLink(v LinkType) { t.audience = append(t.audience, &audiencePersonIntermediateType{Link: v}) } // PrependAudienceLink adds to the front of audience a LinkType type func (t *Person) PrependAudienceLink(v LinkType) { t.audience = append([]*audiencePersonIntermediateType{&audiencePersonIntermediateType{Link: v}}, t.audience...) } // RemoveAudienceLink deletes the value from the specified index func (t *Person) RemoveAudienceLink(index int) { copy(t.audience[index:], t.audience[index+1:]) t.audience[len(t.audience)-1] = nil t.audience = t.audience[:len(t.audience)-1] } // IsAudienceIRI determines whether the call to GetAudienceIRI is safe for the specified index func (t *Person) IsAudienceIRI(index int) (ok bool) { return t.audience[index].IRI != nil } // GetAudienceIRI returns the value safely if IsAudienceIRI returned true for the specified index func (t *Person) GetAudienceIRI(index int) (v *url.URL) { return t.audience[index].IRI } // AppendAudienceIRI adds to the back of audience a *url.URL type func (t *Person) AppendAudienceIRI(v *url.URL) { t.audience = append(t.audience, &audiencePersonIntermediateType{IRI: v}) } // PrependAudienceIRI adds to the front of audience a *url.URL type func (t *Person) PrependAudienceIRI(v *url.URL) { t.audience = append([]*audiencePersonIntermediateType{&audiencePersonIntermediateType{IRI: v}}, t.audience...) } // RemoveAudienceIRI deletes the value from the specified index func (t *Person) RemoveAudienceIRI(index int) { copy(t.audience[index:], t.audience[index+1:]) t.audience[len(t.audience)-1] = nil t.audience = t.audience[:len(t.audience)-1] } // HasUnknownAudience determines whether the call to GetUnknownAudience is safe func (t *Person) HasUnknownAudience() (ok bool) { return t.audience != nil && t.audience[0].unknown_ != nil } // GetUnknownAudience returns the unknown value for audience func (t *Person) GetUnknownAudience() (v interface{}) { return t.audience[0].unknown_ } // SetUnknownAudience sets the unknown value of audience func (t *Person) SetUnknownAudience(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &audiencePersonIntermediateType{} tmp.unknown_ = i t.audience = append(t.audience, tmp) } // ContentLen determines the number of elements able to be used for the IsContentString, GetContentString, and RemoveContentString functions func (t *Person) ContentLen() (l int) { return len(t.content) } // IsContentString determines whether the call to GetContentString is safe for the specified index func (t *Person) IsContentString(index int) (ok bool) { return t.content[index].stringName != nil } // GetContentString returns the value safely if IsContentString returned true for the specified index func (t *Person) GetContentString(index int) (v string) { return *t.content[index].stringName } // AppendContentString adds to the back of content a string type func (t *Person) AppendContentString(v string) { t.content = append(t.content, &contentPersonIntermediateType{stringName: &v}) } // PrependContentString adds to the front of content a string type func (t *Person) PrependContentString(v string) { t.content = append([]*contentPersonIntermediateType{&contentPersonIntermediateType{stringName: &v}}, t.content...) } // RemoveContentString deletes the value from the specified index func (t *Person) RemoveContentString(index int) { copy(t.content[index:], t.content[index+1:]) t.content[len(t.content)-1] = nil t.content = t.content[:len(t.content)-1] } // IsContentLangString determines whether the call to GetContentLangString is safe for the specified index func (t *Person) IsContentLangString(index int) (ok bool) { return t.content[index].langString != nil } // GetContentLangString returns the value safely if IsContentLangString returned true for the specified index func (t *Person) GetContentLangString(index int) (v string) { return *t.content[index].langString } // AppendContentLangString adds to the back of content a string type func (t *Person) AppendContentLangString(v string) { t.content = append(t.content, &contentPersonIntermediateType{langString: &v}) } // PrependContentLangString adds to the front of content a string type func (t *Person) PrependContentLangString(v string) { t.content = append([]*contentPersonIntermediateType{&contentPersonIntermediateType{langString: &v}}, t.content...) } // RemoveContentLangString deletes the value from the specified index func (t *Person) RemoveContentLangString(index int) { copy(t.content[index:], t.content[index+1:]) t.content[len(t.content)-1] = nil t.content = t.content[:len(t.content)-1] } // IsContentIRI determines whether the call to GetContentIRI is safe for the specified index func (t *Person) IsContentIRI(index int) (ok bool) { return t.content[index].IRI != nil } // GetContentIRI returns the value safely if IsContentIRI returned true for the specified index func (t *Person) GetContentIRI(index int) (v *url.URL) { return t.content[index].IRI } // AppendContentIRI adds to the back of content a *url.URL type func (t *Person) AppendContentIRI(v *url.URL) { t.content = append(t.content, &contentPersonIntermediateType{IRI: v}) } // PrependContentIRI adds to the front of content a *url.URL type func (t *Person) PrependContentIRI(v *url.URL) { t.content = append([]*contentPersonIntermediateType{&contentPersonIntermediateType{IRI: v}}, t.content...) } // RemoveContentIRI deletes the value from the specified index func (t *Person) RemoveContentIRI(index int) { copy(t.content[index:], t.content[index+1:]) t.content[len(t.content)-1] = nil t.content = t.content[:len(t.content)-1] } // HasUnknownContent determines whether the call to GetUnknownContent is safe func (t *Person) HasUnknownContent() (ok bool) { return t.content != nil && t.content[0].unknown_ != nil } // GetUnknownContent returns the unknown value for content func (t *Person) GetUnknownContent() (v interface{}) { return t.content[0].unknown_ } // SetUnknownContent sets the unknown value of content func (t *Person) SetUnknownContent(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &contentPersonIntermediateType{} tmp.unknown_ = i t.content = append(t.content, tmp) } // ContentMapLanguages returns all languages for this property's language mapping, or nil if there are none. func (t *Person) ContentMapLanguages() (l []string) { if t.contentMap == nil || len(t.contentMap) == 0 { return nil } for k := range t.contentMap { l = append(l, k) } return } // GetContentMap retrieves the value of the property for the specified language, or an empty string if it does not exist func (t *Person) GetContentMap(l string) (v string) { if t.contentMap == nil { return "" } ok := false v, ok = t.contentMap[l] if !ok { return "" } return v } // SetContentMap sets the value of the property for the specified language func (t *Person) SetContentMap(l string, v string) { if t.contentMap == nil { t.contentMap = make(map[string]string) } t.contentMap[l] = v } // ContextLen determines the number of elements able to be used for the IsContextObject, GetContextObject, and RemoveContextObject functions func (t *Person) ContextLen() (l int) { return len(t.context) } // IsContextObject determines whether the call to GetContextObject is safe for the specified index func (t *Person) IsContextObject(index int) (ok bool) { return t.context[index].Object != nil } // GetContextObject returns the value safely if IsContextObject returned true for the specified index func (t *Person) GetContextObject(index int) (v ObjectType) { return t.context[index].Object } // AppendContextObject adds to the back of context a ObjectType type func (t *Person) AppendContextObject(v ObjectType) { t.context = append(t.context, &contextPersonIntermediateType{Object: v}) } // PrependContextObject adds to the front of context a ObjectType type func (t *Person) PrependContextObject(v ObjectType) { t.context = append([]*contextPersonIntermediateType{&contextPersonIntermediateType{Object: v}}, t.context...) } // RemoveContextObject deletes the value from the specified index func (t *Person) RemoveContextObject(index int) { copy(t.context[index:], t.context[index+1:]) t.context[len(t.context)-1] = nil t.context = t.context[:len(t.context)-1] } // IsContextLink determines whether the call to GetContextLink is safe for the specified index func (t *Person) IsContextLink(index int) (ok bool) { return t.context[index].Link != nil } // GetContextLink returns the value safely if IsContextLink returned true for the specified index func (t *Person) GetContextLink(index int) (v LinkType) { return t.context[index].Link } // AppendContextLink adds to the back of context a LinkType type func (t *Person) AppendContextLink(v LinkType) { t.context = append(t.context, &contextPersonIntermediateType{Link: v}) } // PrependContextLink adds to the front of context a LinkType type func (t *Person) PrependContextLink(v LinkType) { t.context = append([]*contextPersonIntermediateType{&contextPersonIntermediateType{Link: v}}, t.context...) } // RemoveContextLink deletes the value from the specified index func (t *Person) RemoveContextLink(index int) { copy(t.context[index:], t.context[index+1:]) t.context[len(t.context)-1] = nil t.context = t.context[:len(t.context)-1] } // IsContextIRI determines whether the call to GetContextIRI is safe for the specified index func (t *Person) IsContextIRI(index int) (ok bool) { return t.context[index].IRI != nil } // GetContextIRI returns the value safely if IsContextIRI returned true for the specified index func (t *Person) GetContextIRI(index int) (v *url.URL) { return t.context[index].IRI } // AppendContextIRI adds to the back of context a *url.URL type func (t *Person) AppendContextIRI(v *url.URL) { t.context = append(t.context, &contextPersonIntermediateType{IRI: v}) } // PrependContextIRI adds to the front of context a *url.URL type func (t *Person) PrependContextIRI(v *url.URL) { t.context = append([]*contextPersonIntermediateType{&contextPersonIntermediateType{IRI: v}}, t.context...) } // RemoveContextIRI deletes the value from the specified index func (t *Person) RemoveContextIRI(index int) { copy(t.context[index:], t.context[index+1:]) t.context[len(t.context)-1] = nil t.context = t.context[:len(t.context)-1] } // HasUnknownContext determines whether the call to GetUnknownContext is safe func (t *Person) HasUnknownContext() (ok bool) { return t.context != nil && t.context[0].unknown_ != nil } // GetUnknownContext returns the unknown value for context func (t *Person) GetUnknownContext() (v interface{}) { return t.context[0].unknown_ } // SetUnknownContext sets the unknown value of context func (t *Person) SetUnknownContext(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &contextPersonIntermediateType{} tmp.unknown_ = i t.context = append(t.context, tmp) } // NameLen determines the number of elements able to be used for the IsNameString, GetNameString, and RemoveNameString functions func (t *Person) NameLen() (l int) { return len(t.name) } // IsNameString determines whether the call to GetNameString is safe for the specified index func (t *Person) IsNameString(index int) (ok bool) { return t.name[index].stringName != nil } // GetNameString returns the value safely if IsNameString returned true for the specified index func (t *Person) GetNameString(index int) (v string) { return *t.name[index].stringName } // AppendNameString adds to the back of name a string type func (t *Person) AppendNameString(v string) { t.name = append(t.name, &namePersonIntermediateType{stringName: &v}) } // PrependNameString adds to the front of name a string type func (t *Person) PrependNameString(v string) { t.name = append([]*namePersonIntermediateType{&namePersonIntermediateType{stringName: &v}}, t.name...) } // RemoveNameString deletes the value from the specified index func (t *Person) RemoveNameString(index int) { copy(t.name[index:], t.name[index+1:]) t.name[len(t.name)-1] = nil t.name = t.name[:len(t.name)-1] } // IsNameLangString determines whether the call to GetNameLangString is safe for the specified index func (t *Person) IsNameLangString(index int) (ok bool) { return t.name[index].langString != nil } // GetNameLangString returns the value safely if IsNameLangString returned true for the specified index func (t *Person) GetNameLangString(index int) (v string) { return *t.name[index].langString } // AppendNameLangString adds to the back of name a string type func (t *Person) AppendNameLangString(v string) { t.name = append(t.name, &namePersonIntermediateType{langString: &v}) } // PrependNameLangString adds to the front of name a string type func (t *Person) PrependNameLangString(v string) { t.name = append([]*namePersonIntermediateType{&namePersonIntermediateType{langString: &v}}, t.name...) } // RemoveNameLangString deletes the value from the specified index func (t *Person) RemoveNameLangString(index int) { copy(t.name[index:], t.name[index+1:]) t.name[len(t.name)-1] = nil t.name = t.name[:len(t.name)-1] } // IsNameIRI determines whether the call to GetNameIRI is safe for the specified index func (t *Person) IsNameIRI(index int) (ok bool) { return t.name[index].IRI != nil } // GetNameIRI returns the value safely if IsNameIRI returned true for the specified index func (t *Person) GetNameIRI(index int) (v *url.URL) { return t.name[index].IRI } // AppendNameIRI adds to the back of name a *url.URL type func (t *Person) AppendNameIRI(v *url.URL) { t.name = append(t.name, &namePersonIntermediateType{IRI: v}) } // PrependNameIRI adds to the front of name a *url.URL type func (t *Person) PrependNameIRI(v *url.URL) { t.name = append([]*namePersonIntermediateType{&namePersonIntermediateType{IRI: v}}, t.name...) } // RemoveNameIRI deletes the value from the specified index func (t *Person) RemoveNameIRI(index int) { copy(t.name[index:], t.name[index+1:]) t.name[len(t.name)-1] = nil t.name = t.name[:len(t.name)-1] } // HasUnknownName determines whether the call to GetUnknownName is safe func (t *Person) HasUnknownName() (ok bool) { return t.name != nil && t.name[0].unknown_ != nil } // GetUnknownName returns the unknown value for name func (t *Person) GetUnknownName() (v interface{}) { return t.name[0].unknown_ } // SetUnknownName sets the unknown value of name func (t *Person) SetUnknownName(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &namePersonIntermediateType{} tmp.unknown_ = i t.name = append(t.name, tmp) } // NameMapLanguages returns all languages for this property's language mapping, or nil if there are none. func (t *Person) NameMapLanguages() (l []string) { if t.nameMap == nil || len(t.nameMap) == 0 { return nil } for k := range t.nameMap { l = append(l, k) } return } // GetNameMap retrieves the value of the property for the specified language, or an empty string if it does not exist func (t *Person) GetNameMap(l string) (v string) { if t.nameMap == nil { return "" } ok := false v, ok = t.nameMap[l] if !ok { return "" } return v } // SetNameMap sets the value of the property for the specified language func (t *Person) SetNameMap(l string, v string) { if t.nameMap == nil { t.nameMap = make(map[string]string) } t.nameMap[l] = v } // IsEndTime determines whether the call to GetEndTime is safe func (t *Person) IsEndTime() (ok bool) { return t.endTime != nil && t.endTime.dateTime != nil } // GetEndTime returns the value safely if IsEndTime returned true func (t *Person) GetEndTime() (v time.Time) { return *t.endTime.dateTime } // SetEndTime sets the value of endTime to be of time.Time type func (t *Person) SetEndTime(v time.Time) { t.endTime = &endTimePersonIntermediateType{dateTime: &v} } // IsEndTimeIRI determines whether the call to GetEndTimeIRI is safe func (t *Person) IsEndTimeIRI() (ok bool) { return t.endTime != nil && t.endTime.IRI != nil } // GetEndTimeIRI returns the value safely if IsEndTimeIRI returned true func (t *Person) GetEndTimeIRI() (v *url.URL) { return t.endTime.IRI } // SetEndTimeIRI sets the value of endTime to be of *url.URL type func (t *Person) SetEndTimeIRI(v *url.URL) { t.endTime = &endTimePersonIntermediateType{IRI: v} } // HasUnknownEndTime determines whether the call to GetUnknownEndTime is safe func (t *Person) HasUnknownEndTime() (ok bool) { return t.endTime != nil && t.endTime.unknown_ != nil } // GetUnknownEndTime returns the unknown value for endTime func (t *Person) GetUnknownEndTime() (v interface{}) { return t.endTime.unknown_ } // SetUnknownEndTime sets the unknown value of endTime func (t *Person) SetUnknownEndTime(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &endTimePersonIntermediateType{} tmp.unknown_ = i t.endTime = tmp } // GeneratorLen determines the number of elements able to be used for the IsGeneratorObject, GetGeneratorObject, and RemoveGeneratorObject functions func (t *Person) GeneratorLen() (l int) { return len(t.generator) } // IsGeneratorObject determines whether the call to GetGeneratorObject is safe for the specified index func (t *Person) IsGeneratorObject(index int) (ok bool) { return t.generator[index].Object != nil } // GetGeneratorObject returns the value safely if IsGeneratorObject returned true for the specified index func (t *Person) GetGeneratorObject(index int) (v ObjectType) { return t.generator[index].Object } // AppendGeneratorObject adds to the back of generator a ObjectType type func (t *Person) AppendGeneratorObject(v ObjectType) { t.generator = append(t.generator, &generatorPersonIntermediateType{Object: v}) } // PrependGeneratorObject adds to the front of generator a ObjectType type func (t *Person) PrependGeneratorObject(v ObjectType) { t.generator = append([]*generatorPersonIntermediateType{&generatorPersonIntermediateType{Object: v}}, t.generator...) } // RemoveGeneratorObject deletes the value from the specified index func (t *Person) RemoveGeneratorObject(index int) { copy(t.generator[index:], t.generator[index+1:]) t.generator[len(t.generator)-1] = nil t.generator = t.generator[:len(t.generator)-1] } // IsGeneratorLink determines whether the call to GetGeneratorLink is safe for the specified index func (t *Person) IsGeneratorLink(index int) (ok bool) { return t.generator[index].Link != nil } // GetGeneratorLink returns the value safely if IsGeneratorLink returned true for the specified index func (t *Person) GetGeneratorLink(index int) (v LinkType) { return t.generator[index].Link } // AppendGeneratorLink adds to the back of generator a LinkType type func (t *Person) AppendGeneratorLink(v LinkType) { t.generator = append(t.generator, &generatorPersonIntermediateType{Link: v}) } // PrependGeneratorLink adds to the front of generator a LinkType type func (t *Person) PrependGeneratorLink(v LinkType) { t.generator = append([]*generatorPersonIntermediateType{&generatorPersonIntermediateType{Link: v}}, t.generator...) } // RemoveGeneratorLink deletes the value from the specified index func (t *Person) RemoveGeneratorLink(index int) { copy(t.generator[index:], t.generator[index+1:]) t.generator[len(t.generator)-1] = nil t.generator = t.generator[:len(t.generator)-1] } // IsGeneratorIRI determines whether the call to GetGeneratorIRI is safe for the specified index func (t *Person) IsGeneratorIRI(index int) (ok bool) { return t.generator[index].IRI != nil } // GetGeneratorIRI returns the value safely if IsGeneratorIRI returned true for the specified index func (t *Person) GetGeneratorIRI(index int) (v *url.URL) { return t.generator[index].IRI } // AppendGeneratorIRI adds to the back of generator a *url.URL type func (t *Person) AppendGeneratorIRI(v *url.URL) { t.generator = append(t.generator, &generatorPersonIntermediateType{IRI: v}) } // PrependGeneratorIRI adds to the front of generator a *url.URL type func (t *Person) PrependGeneratorIRI(v *url.URL) { t.generator = append([]*generatorPersonIntermediateType{&generatorPersonIntermediateType{IRI: v}}, t.generator...) } // RemoveGeneratorIRI deletes the value from the specified index func (t *Person) RemoveGeneratorIRI(index int) { copy(t.generator[index:], t.generator[index+1:]) t.generator[len(t.generator)-1] = nil t.generator = t.generator[:len(t.generator)-1] } // HasUnknownGenerator determines whether the call to GetUnknownGenerator is safe func (t *Person) HasUnknownGenerator() (ok bool) { return t.generator != nil && t.generator[0].unknown_ != nil } // GetUnknownGenerator returns the unknown value for generator func (t *Person) GetUnknownGenerator() (v interface{}) { return t.generator[0].unknown_ } // SetUnknownGenerator sets the unknown value of generator func (t *Person) SetUnknownGenerator(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &generatorPersonIntermediateType{} tmp.unknown_ = i t.generator = append(t.generator, tmp) } // IconLen determines the number of elements able to be used for the IsIconImage, GetIconImage, and RemoveIconImage functions func (t *Person) IconLen() (l int) { return len(t.icon) } // IsIconImage determines whether the call to GetIconImage is safe for the specified index func (t *Person) IsIconImage(index int) (ok bool) { return t.icon[index].Image != nil } // GetIconImage returns the value safely if IsIconImage returned true for the specified index func (t *Person) GetIconImage(index int) (v ImageType) { return t.icon[index].Image } // AppendIconImage adds to the back of icon a ImageType type func (t *Person) AppendIconImage(v ImageType) { t.icon = append(t.icon, &iconPersonIntermediateType{Image: v}) } // PrependIconImage adds to the front of icon a ImageType type func (t *Person) PrependIconImage(v ImageType) { t.icon = append([]*iconPersonIntermediateType{&iconPersonIntermediateType{Image: v}}, t.icon...) } // RemoveIconImage deletes the value from the specified index func (t *Person) RemoveIconImage(index int) { copy(t.icon[index:], t.icon[index+1:]) t.icon[len(t.icon)-1] = nil t.icon = t.icon[:len(t.icon)-1] } // IsIconLink determines whether the call to GetIconLink is safe for the specified index func (t *Person) IsIconLink(index int) (ok bool) { return t.icon[index].Link != nil } // GetIconLink returns the value safely if IsIconLink returned true for the specified index func (t *Person) GetIconLink(index int) (v LinkType) { return t.icon[index].Link } // AppendIconLink adds to the back of icon a LinkType type func (t *Person) AppendIconLink(v LinkType) { t.icon = append(t.icon, &iconPersonIntermediateType{Link: v}) } // PrependIconLink adds to the front of icon a LinkType type func (t *Person) PrependIconLink(v LinkType) { t.icon = append([]*iconPersonIntermediateType{&iconPersonIntermediateType{Link: v}}, t.icon...) } // RemoveIconLink deletes the value from the specified index func (t *Person) RemoveIconLink(index int) { copy(t.icon[index:], t.icon[index+1:]) t.icon[len(t.icon)-1] = nil t.icon = t.icon[:len(t.icon)-1] } // IsIconIRI determines whether the call to GetIconIRI is safe for the specified index func (t *Person) IsIconIRI(index int) (ok bool) { return t.icon[index].IRI != nil } // GetIconIRI returns the value safely if IsIconIRI returned true for the specified index func (t *Person) GetIconIRI(index int) (v *url.URL) { return t.icon[index].IRI } // AppendIconIRI adds to the back of icon a *url.URL type func (t *Person) AppendIconIRI(v *url.URL) { t.icon = append(t.icon, &iconPersonIntermediateType{IRI: v}) } // PrependIconIRI adds to the front of icon a *url.URL type func (t *Person) PrependIconIRI(v *url.URL) { t.icon = append([]*iconPersonIntermediateType{&iconPersonIntermediateType{IRI: v}}, t.icon...) } // RemoveIconIRI deletes the value from the specified index func (t *Person) RemoveIconIRI(index int) { copy(t.icon[index:], t.icon[index+1:]) t.icon[len(t.icon)-1] = nil t.icon = t.icon[:len(t.icon)-1] } // HasUnknownIcon determines whether the call to GetUnknownIcon is safe func (t *Person) HasUnknownIcon() (ok bool) { return t.icon != nil && t.icon[0].unknown_ != nil } // GetUnknownIcon returns the unknown value for icon func (t *Person) GetUnknownIcon() (v interface{}) { return t.icon[0].unknown_ } // SetUnknownIcon sets the unknown value of icon func (t *Person) SetUnknownIcon(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &iconPersonIntermediateType{} tmp.unknown_ = i t.icon = append(t.icon, tmp) } // HasId determines whether the call to GetId is safe func (t *Person) HasId() (ok bool) { return t.id != nil } // GetId returns the value for id func (t *Person) GetId() (v *url.URL) { return t.id } // SetId sets the value of id func (t *Person) SetId(v *url.URL) { t.id = v } // HasUnknownId determines whether the call to GetUnknownId is safe func (t *Person) HasUnknownId() (ok bool) { return t.unknown_ != nil && t.unknown_["id"] != nil } // GetUnknownId returns the unknown value for id func (t *Person) GetUnknownId() (v interface{}) { return t.unknown_["id"] } // SetUnknownId sets the unknown value of id func (t *Person) SetUnknownId(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } t.unknown_["id"] = i } // ImageLen determines the number of elements able to be used for the IsImageImage, GetImageImage, and RemoveImageImage functions func (t *Person) ImageLen() (l int) { return len(t.image) } // IsImageImage determines whether the call to GetImageImage is safe for the specified index func (t *Person) IsImageImage(index int) (ok bool) { return t.image[index].Image != nil } // GetImageImage returns the value safely if IsImageImage returned true for the specified index func (t *Person) GetImageImage(index int) (v ImageType) { return t.image[index].Image } // AppendImageImage adds to the back of image a ImageType type func (t *Person) AppendImageImage(v ImageType) { t.image = append(t.image, &imagePersonIntermediateType{Image: v}) } // PrependImageImage adds to the front of image a ImageType type func (t *Person) PrependImageImage(v ImageType) { t.image = append([]*imagePersonIntermediateType{&imagePersonIntermediateType{Image: v}}, t.image...) } // RemoveImageImage deletes the value from the specified index func (t *Person) RemoveImageImage(index int) { copy(t.image[index:], t.image[index+1:]) t.image[len(t.image)-1] = nil t.image = t.image[:len(t.image)-1] } // IsImageLink determines whether the call to GetImageLink is safe for the specified index func (t *Person) IsImageLink(index int) (ok bool) { return t.image[index].Link != nil } // GetImageLink returns the value safely if IsImageLink returned true for the specified index func (t *Person) GetImageLink(index int) (v LinkType) { return t.image[index].Link } // AppendImageLink adds to the back of image a LinkType type func (t *Person) AppendImageLink(v LinkType) { t.image = append(t.image, &imagePersonIntermediateType{Link: v}) } // PrependImageLink adds to the front of image a LinkType type func (t *Person) PrependImageLink(v LinkType) { t.image = append([]*imagePersonIntermediateType{&imagePersonIntermediateType{Link: v}}, t.image...) } // RemoveImageLink deletes the value from the specified index func (t *Person) RemoveImageLink(index int) { copy(t.image[index:], t.image[index+1:]) t.image[len(t.image)-1] = nil t.image = t.image[:len(t.image)-1] } // IsImageIRI determines whether the call to GetImageIRI is safe for the specified index func (t *Person) IsImageIRI(index int) (ok bool) { return t.image[index].IRI != nil } // GetImageIRI returns the value safely if IsImageIRI returned true for the specified index func (t *Person) GetImageIRI(index int) (v *url.URL) { return t.image[index].IRI } // AppendImageIRI adds to the back of image a *url.URL type func (t *Person) AppendImageIRI(v *url.URL) { t.image = append(t.image, &imagePersonIntermediateType{IRI: v}) } // PrependImageIRI adds to the front of image a *url.URL type func (t *Person) PrependImageIRI(v *url.URL) { t.image = append([]*imagePersonIntermediateType{&imagePersonIntermediateType{IRI: v}}, t.image...) } // RemoveImageIRI deletes the value from the specified index func (t *Person) RemoveImageIRI(index int) { copy(t.image[index:], t.image[index+1:]) t.image[len(t.image)-1] = nil t.image = t.image[:len(t.image)-1] } // HasUnknownImage determines whether the call to GetUnknownImage is safe func (t *Person) HasUnknownImage() (ok bool) { return t.image != nil && t.image[0].unknown_ != nil } // GetUnknownImage returns the unknown value for image func (t *Person) GetUnknownImage() (v interface{}) { return t.image[0].unknown_ } // SetUnknownImage sets the unknown value of image func (t *Person) SetUnknownImage(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &imagePersonIntermediateType{} tmp.unknown_ = i t.image = append(t.image, tmp) } // InReplyToLen determines the number of elements able to be used for the IsInReplyToObject, GetInReplyToObject, and RemoveInReplyToObject functions func (t *Person) InReplyToLen() (l int) { return len(t.inReplyTo) } // IsInReplyToObject determines whether the call to GetInReplyToObject is safe for the specified index func (t *Person) IsInReplyToObject(index int) (ok bool) { return t.inReplyTo[index].Object != nil } // GetInReplyToObject returns the value safely if IsInReplyToObject returned true for the specified index func (t *Person) GetInReplyToObject(index int) (v ObjectType) { return t.inReplyTo[index].Object } // AppendInReplyToObject adds to the back of inReplyTo a ObjectType type func (t *Person) AppendInReplyToObject(v ObjectType) { t.inReplyTo = append(t.inReplyTo, &inReplyToPersonIntermediateType{Object: v}) } // PrependInReplyToObject adds to the front of inReplyTo a ObjectType type func (t *Person) PrependInReplyToObject(v ObjectType) { t.inReplyTo = append([]*inReplyToPersonIntermediateType{&inReplyToPersonIntermediateType{Object: v}}, t.inReplyTo...) } // RemoveInReplyToObject deletes the value from the specified index func (t *Person) RemoveInReplyToObject(index int) { copy(t.inReplyTo[index:], t.inReplyTo[index+1:]) t.inReplyTo[len(t.inReplyTo)-1] = nil t.inReplyTo = t.inReplyTo[:len(t.inReplyTo)-1] } // IsInReplyToLink determines whether the call to GetInReplyToLink is safe for the specified index func (t *Person) IsInReplyToLink(index int) (ok bool) { return t.inReplyTo[index].Link != nil } // GetInReplyToLink returns the value safely if IsInReplyToLink returned true for the specified index func (t *Person) GetInReplyToLink(index int) (v LinkType) { return t.inReplyTo[index].Link } // AppendInReplyToLink adds to the back of inReplyTo a LinkType type func (t *Person) AppendInReplyToLink(v LinkType) { t.inReplyTo = append(t.inReplyTo, &inReplyToPersonIntermediateType{Link: v}) } // PrependInReplyToLink adds to the front of inReplyTo a LinkType type func (t *Person) PrependInReplyToLink(v LinkType) { t.inReplyTo = append([]*inReplyToPersonIntermediateType{&inReplyToPersonIntermediateType{Link: v}}, t.inReplyTo...) } // RemoveInReplyToLink deletes the value from the specified index func (t *Person) RemoveInReplyToLink(index int) { copy(t.inReplyTo[index:], t.inReplyTo[index+1:]) t.inReplyTo[len(t.inReplyTo)-1] = nil t.inReplyTo = t.inReplyTo[:len(t.inReplyTo)-1] } // IsInReplyToIRI determines whether the call to GetInReplyToIRI is safe for the specified index func (t *Person) IsInReplyToIRI(index int) (ok bool) { return t.inReplyTo[index].IRI != nil } // GetInReplyToIRI returns the value safely if IsInReplyToIRI returned true for the specified index func (t *Person) GetInReplyToIRI(index int) (v *url.URL) { return t.inReplyTo[index].IRI } // AppendInReplyToIRI adds to the back of inReplyTo a *url.URL type func (t *Person) AppendInReplyToIRI(v *url.URL) { t.inReplyTo = append(t.inReplyTo, &inReplyToPersonIntermediateType{IRI: v}) } // PrependInReplyToIRI adds to the front of inReplyTo a *url.URL type func (t *Person) PrependInReplyToIRI(v *url.URL) { t.inReplyTo = append([]*inReplyToPersonIntermediateType{&inReplyToPersonIntermediateType{IRI: v}}, t.inReplyTo...) } // RemoveInReplyToIRI deletes the value from the specified index func (t *Person) RemoveInReplyToIRI(index int) { copy(t.inReplyTo[index:], t.inReplyTo[index+1:]) t.inReplyTo[len(t.inReplyTo)-1] = nil t.inReplyTo = t.inReplyTo[:len(t.inReplyTo)-1] } // HasUnknownInReplyTo determines whether the call to GetUnknownInReplyTo is safe func (t *Person) HasUnknownInReplyTo() (ok bool) { return t.inReplyTo != nil && t.inReplyTo[0].unknown_ != nil } // GetUnknownInReplyTo returns the unknown value for inReplyTo func (t *Person) GetUnknownInReplyTo() (v interface{}) { return t.inReplyTo[0].unknown_ } // SetUnknownInReplyTo sets the unknown value of inReplyTo func (t *Person) SetUnknownInReplyTo(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &inReplyToPersonIntermediateType{} tmp.unknown_ = i t.inReplyTo = append(t.inReplyTo, tmp) } // LocationLen determines the number of elements able to be used for the IsLocationObject, GetLocationObject, and RemoveLocationObject functions func (t *Person) LocationLen() (l int) { return len(t.location) } // IsLocationObject determines whether the call to GetLocationObject is safe for the specified index func (t *Person) IsLocationObject(index int) (ok bool) { return t.location[index].Object != nil } // GetLocationObject returns the value safely if IsLocationObject returned true for the specified index func (t *Person) GetLocationObject(index int) (v ObjectType) { return t.location[index].Object } // AppendLocationObject adds to the back of location a ObjectType type func (t *Person) AppendLocationObject(v ObjectType) { t.location = append(t.location, &locationPersonIntermediateType{Object: v}) } // PrependLocationObject adds to the front of location a ObjectType type func (t *Person) PrependLocationObject(v ObjectType) { t.location = append([]*locationPersonIntermediateType{&locationPersonIntermediateType{Object: v}}, t.location...) } // RemoveLocationObject deletes the value from the specified index func (t *Person) RemoveLocationObject(index int) { copy(t.location[index:], t.location[index+1:]) t.location[len(t.location)-1] = nil t.location = t.location[:len(t.location)-1] } // IsLocationLink determines whether the call to GetLocationLink is safe for the specified index func (t *Person) IsLocationLink(index int) (ok bool) { return t.location[index].Link != nil } // GetLocationLink returns the value safely if IsLocationLink returned true for the specified index func (t *Person) GetLocationLink(index int) (v LinkType) { return t.location[index].Link } // AppendLocationLink adds to the back of location a LinkType type func (t *Person) AppendLocationLink(v LinkType) { t.location = append(t.location, &locationPersonIntermediateType{Link: v}) } // PrependLocationLink adds to the front of location a LinkType type func (t *Person) PrependLocationLink(v LinkType) { t.location = append([]*locationPersonIntermediateType{&locationPersonIntermediateType{Link: v}}, t.location...) } // RemoveLocationLink deletes the value from the specified index func (t *Person) RemoveLocationLink(index int) { copy(t.location[index:], t.location[index+1:]) t.location[len(t.location)-1] = nil t.location = t.location[:len(t.location)-1] } // IsLocationIRI determines whether the call to GetLocationIRI is safe for the specified index func (t *Person) IsLocationIRI(index int) (ok bool) { return t.location[index].IRI != nil } // GetLocationIRI returns the value safely if IsLocationIRI returned true for the specified index func (t *Person) GetLocationIRI(index int) (v *url.URL) { return t.location[index].IRI } // AppendLocationIRI adds to the back of location a *url.URL type func (t *Person) AppendLocationIRI(v *url.URL) { t.location = append(t.location, &locationPersonIntermediateType{IRI: v}) } // PrependLocationIRI adds to the front of location a *url.URL type func (t *Person) PrependLocationIRI(v *url.URL) { t.location = append([]*locationPersonIntermediateType{&locationPersonIntermediateType{IRI: v}}, t.location...) } // RemoveLocationIRI deletes the value from the specified index func (t *Person) RemoveLocationIRI(index int) { copy(t.location[index:], t.location[index+1:]) t.location[len(t.location)-1] = nil t.location = t.location[:len(t.location)-1] } // HasUnknownLocation determines whether the call to GetUnknownLocation is safe func (t *Person) HasUnknownLocation() (ok bool) { return t.location != nil && t.location[0].unknown_ != nil } // GetUnknownLocation returns the unknown value for location func (t *Person) GetUnknownLocation() (v interface{}) { return t.location[0].unknown_ } // SetUnknownLocation sets the unknown value of location func (t *Person) SetUnknownLocation(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &locationPersonIntermediateType{} tmp.unknown_ = i t.location = append(t.location, tmp) } // PreviewLen determines the number of elements able to be used for the IsPreviewObject, GetPreviewObject, and RemovePreviewObject functions func (t *Person) PreviewLen() (l int) { return len(t.preview) } // IsPreviewObject determines whether the call to GetPreviewObject is safe for the specified index func (t *Person) IsPreviewObject(index int) (ok bool) { return t.preview[index].Object != nil } // GetPreviewObject returns the value safely if IsPreviewObject returned true for the specified index func (t *Person) GetPreviewObject(index int) (v ObjectType) { return t.preview[index].Object } // AppendPreviewObject adds to the back of preview a ObjectType type func (t *Person) AppendPreviewObject(v ObjectType) { t.preview = append(t.preview, &previewPersonIntermediateType{Object: v}) } // PrependPreviewObject adds to the front of preview a ObjectType type func (t *Person) PrependPreviewObject(v ObjectType) { t.preview = append([]*previewPersonIntermediateType{&previewPersonIntermediateType{Object: v}}, t.preview...) } // RemovePreviewObject deletes the value from the specified index func (t *Person) RemovePreviewObject(index int) { copy(t.preview[index:], t.preview[index+1:]) t.preview[len(t.preview)-1] = nil t.preview = t.preview[:len(t.preview)-1] } // IsPreviewLink determines whether the call to GetPreviewLink is safe for the specified index func (t *Person) IsPreviewLink(index int) (ok bool) { return t.preview[index].Link != nil } // GetPreviewLink returns the value safely if IsPreviewLink returned true for the specified index func (t *Person) GetPreviewLink(index int) (v LinkType) { return t.preview[index].Link } // AppendPreviewLink adds to the back of preview a LinkType type func (t *Person) AppendPreviewLink(v LinkType) { t.preview = append(t.preview, &previewPersonIntermediateType{Link: v}) } // PrependPreviewLink adds to the front of preview a LinkType type func (t *Person) PrependPreviewLink(v LinkType) { t.preview = append([]*previewPersonIntermediateType{&previewPersonIntermediateType{Link: v}}, t.preview...) } // RemovePreviewLink deletes the value from the specified index func (t *Person) RemovePreviewLink(index int) { copy(t.preview[index:], t.preview[index+1:]) t.preview[len(t.preview)-1] = nil t.preview = t.preview[:len(t.preview)-1] } // IsPreviewIRI determines whether the call to GetPreviewIRI is safe for the specified index func (t *Person) IsPreviewIRI(index int) (ok bool) { return t.preview[index].IRI != nil } // GetPreviewIRI returns the value safely if IsPreviewIRI returned true for the specified index func (t *Person) GetPreviewIRI(index int) (v *url.URL) { return t.preview[index].IRI } // AppendPreviewIRI adds to the back of preview a *url.URL type func (t *Person) AppendPreviewIRI(v *url.URL) { t.preview = append(t.preview, &previewPersonIntermediateType{IRI: v}) } // PrependPreviewIRI adds to the front of preview a *url.URL type func (t *Person) PrependPreviewIRI(v *url.URL) { t.preview = append([]*previewPersonIntermediateType{&previewPersonIntermediateType{IRI: v}}, t.preview...) } // RemovePreviewIRI deletes the value from the specified index func (t *Person) RemovePreviewIRI(index int) { copy(t.preview[index:], t.preview[index+1:]) t.preview[len(t.preview)-1] = nil t.preview = t.preview[:len(t.preview)-1] } // HasUnknownPreview determines whether the call to GetUnknownPreview is safe func (t *Person) HasUnknownPreview() (ok bool) { return t.preview != nil && t.preview[0].unknown_ != nil } // GetUnknownPreview returns the unknown value for preview func (t *Person) GetUnknownPreview() (v interface{}) { return t.preview[0].unknown_ } // SetUnknownPreview sets the unknown value of preview func (t *Person) SetUnknownPreview(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &previewPersonIntermediateType{} tmp.unknown_ = i t.preview = append(t.preview, tmp) } // IsPublished determines whether the call to GetPublished is safe func (t *Person) IsPublished() (ok bool) { return t.published != nil && t.published.dateTime != nil } // GetPublished returns the value safely if IsPublished returned true func (t *Person) GetPublished() (v time.Time) { return *t.published.dateTime } // SetPublished sets the value of published to be of time.Time type func (t *Person) SetPublished(v time.Time) { t.published = &publishedPersonIntermediateType{dateTime: &v} } // IsPublishedIRI determines whether the call to GetPublishedIRI is safe func (t *Person) IsPublishedIRI() (ok bool) { return t.published != nil && t.published.IRI != nil } // GetPublishedIRI returns the value safely if IsPublishedIRI returned true func (t *Person) GetPublishedIRI() (v *url.URL) { return t.published.IRI } // SetPublishedIRI sets the value of published to be of *url.URL type func (t *Person) SetPublishedIRI(v *url.URL) { t.published = &publishedPersonIntermediateType{IRI: v} } // HasUnknownPublished determines whether the call to GetUnknownPublished is safe func (t *Person) HasUnknownPublished() (ok bool) { return t.published != nil && t.published.unknown_ != nil } // GetUnknownPublished returns the unknown value for published func (t *Person) GetUnknownPublished() (v interface{}) { return t.published.unknown_ } // SetUnknownPublished sets the unknown value of published func (t *Person) SetUnknownPublished(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &publishedPersonIntermediateType{} tmp.unknown_ = i t.published = tmp } // IsReplies determines whether the call to GetReplies is safe func (t *Person) IsReplies() (ok bool) { return t.replies != nil && t.replies.Collection != nil } // GetReplies returns the value safely if IsReplies returned true func (t *Person) GetReplies() (v CollectionType) { return t.replies.Collection } // SetReplies sets the value of replies to be of CollectionType type func (t *Person) SetReplies(v CollectionType) { t.replies = &repliesPersonIntermediateType{Collection: v} } // IsRepliesIRI determines whether the call to GetRepliesIRI is safe func (t *Person) IsRepliesIRI() (ok bool) { return t.replies != nil && t.replies.IRI != nil } // GetRepliesIRI returns the value safely if IsRepliesIRI returned true func (t *Person) GetRepliesIRI() (v *url.URL) { return t.replies.IRI } // SetRepliesIRI sets the value of replies to be of *url.URL type func (t *Person) SetRepliesIRI(v *url.URL) { t.replies = &repliesPersonIntermediateType{IRI: v} } // HasUnknownReplies determines whether the call to GetUnknownReplies is safe func (t *Person) HasUnknownReplies() (ok bool) { return t.replies != nil && t.replies.unknown_ != nil } // GetUnknownReplies returns the unknown value for replies func (t *Person) GetUnknownReplies() (v interface{}) { return t.replies.unknown_ } // SetUnknownReplies sets the unknown value of replies func (t *Person) SetUnknownReplies(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &repliesPersonIntermediateType{} tmp.unknown_ = i t.replies = tmp } // IsStartTime determines whether the call to GetStartTime is safe func (t *Person) IsStartTime() (ok bool) { return t.startTime != nil && t.startTime.dateTime != nil } // GetStartTime returns the value safely if IsStartTime returned true func (t *Person) GetStartTime() (v time.Time) { return *t.startTime.dateTime } // SetStartTime sets the value of startTime to be of time.Time type func (t *Person) SetStartTime(v time.Time) { t.startTime = &startTimePersonIntermediateType{dateTime: &v} } // IsStartTimeIRI determines whether the call to GetStartTimeIRI is safe func (t *Person) IsStartTimeIRI() (ok bool) { return t.startTime != nil && t.startTime.IRI != nil } // GetStartTimeIRI returns the value safely if IsStartTimeIRI returned true func (t *Person) GetStartTimeIRI() (v *url.URL) { return t.startTime.IRI } // SetStartTimeIRI sets the value of startTime to be of *url.URL type func (t *Person) SetStartTimeIRI(v *url.URL) { t.startTime = &startTimePersonIntermediateType{IRI: v} } // HasUnknownStartTime determines whether the call to GetUnknownStartTime is safe func (t *Person) HasUnknownStartTime() (ok bool) { return t.startTime != nil && t.startTime.unknown_ != nil } // GetUnknownStartTime returns the unknown value for startTime func (t *Person) GetUnknownStartTime() (v interface{}) { return t.startTime.unknown_ } // SetUnknownStartTime sets the unknown value of startTime func (t *Person) SetUnknownStartTime(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &startTimePersonIntermediateType{} tmp.unknown_ = i t.startTime = tmp } // SummaryLen determines the number of elements able to be used for the IsSummaryString, GetSummaryString, and RemoveSummaryString functions func (t *Person) SummaryLen() (l int) { return len(t.summary) } // IsSummaryString determines whether the call to GetSummaryString is safe for the specified index func (t *Person) IsSummaryString(index int) (ok bool) { return t.summary[index].stringName != nil } // GetSummaryString returns the value safely if IsSummaryString returned true for the specified index func (t *Person) GetSummaryString(index int) (v string) { return *t.summary[index].stringName } // AppendSummaryString adds to the back of summary a string type func (t *Person) AppendSummaryString(v string) { t.summary = append(t.summary, &summaryPersonIntermediateType{stringName: &v}) } // PrependSummaryString adds to the front of summary a string type func (t *Person) PrependSummaryString(v string) { t.summary = append([]*summaryPersonIntermediateType{&summaryPersonIntermediateType{stringName: &v}}, t.summary...) } // RemoveSummaryString deletes the value from the specified index func (t *Person) RemoveSummaryString(index int) { copy(t.summary[index:], t.summary[index+1:]) t.summary[len(t.summary)-1] = nil t.summary = t.summary[:len(t.summary)-1] } // IsSummaryLangString determines whether the call to GetSummaryLangString is safe for the specified index func (t *Person) IsSummaryLangString(index int) (ok bool) { return t.summary[index].langString != nil } // GetSummaryLangString returns the value safely if IsSummaryLangString returned true for the specified index func (t *Person) GetSummaryLangString(index int) (v string) { return *t.summary[index].langString } // AppendSummaryLangString adds to the back of summary a string type func (t *Person) AppendSummaryLangString(v string) { t.summary = append(t.summary, &summaryPersonIntermediateType{langString: &v}) } // PrependSummaryLangString adds to the front of summary a string type func (t *Person) PrependSummaryLangString(v string) { t.summary = append([]*summaryPersonIntermediateType{&summaryPersonIntermediateType{langString: &v}}, t.summary...) } // RemoveSummaryLangString deletes the value from the specified index func (t *Person) RemoveSummaryLangString(index int) { copy(t.summary[index:], t.summary[index+1:]) t.summary[len(t.summary)-1] = nil t.summary = t.summary[:len(t.summary)-1] } // IsSummaryIRI determines whether the call to GetSummaryIRI is safe for the specified index func (t *Person) IsSummaryIRI(index int) (ok bool) { return t.summary[index].IRI != nil } // GetSummaryIRI returns the value safely if IsSummaryIRI returned true for the specified index func (t *Person) GetSummaryIRI(index int) (v *url.URL) { return t.summary[index].IRI } // AppendSummaryIRI adds to the back of summary a *url.URL type func (t *Person) AppendSummaryIRI(v *url.URL) { t.summary = append(t.summary, &summaryPersonIntermediateType{IRI: v}) } // PrependSummaryIRI adds to the front of summary a *url.URL type func (t *Person) PrependSummaryIRI(v *url.URL) { t.summary = append([]*summaryPersonIntermediateType{&summaryPersonIntermediateType{IRI: v}}, t.summary...) } // RemoveSummaryIRI deletes the value from the specified index func (t *Person) RemoveSummaryIRI(index int) { copy(t.summary[index:], t.summary[index+1:]) t.summary[len(t.summary)-1] = nil t.summary = t.summary[:len(t.summary)-1] } // HasUnknownSummary determines whether the call to GetUnknownSummary is safe func (t *Person) HasUnknownSummary() (ok bool) { return t.summary != nil && t.summary[0].unknown_ != nil } // GetUnknownSummary returns the unknown value for summary func (t *Person) GetUnknownSummary() (v interface{}) { return t.summary[0].unknown_ } // SetUnknownSummary sets the unknown value of summary func (t *Person) SetUnknownSummary(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &summaryPersonIntermediateType{} tmp.unknown_ = i t.summary = append(t.summary, tmp) } // SummaryMapLanguages returns all languages for this property's language mapping, or nil if there are none. func (t *Person) SummaryMapLanguages() (l []string) { if t.summaryMap == nil || len(t.summaryMap) == 0 { return nil } for k := range t.summaryMap { l = append(l, k) } return } // GetSummaryMap retrieves the value of the property for the specified language, or an empty string if it does not exist func (t *Person) GetSummaryMap(l string) (v string) { if t.summaryMap == nil { return "" } ok := false v, ok = t.summaryMap[l] if !ok { return "" } return v } // SetSummaryMap sets the value of the property for the specified language func (t *Person) SetSummaryMap(l string, v string) { if t.summaryMap == nil { t.summaryMap = make(map[string]string) } t.summaryMap[l] = v } // TagLen determines the number of elements able to be used for the IsTagObject, GetTagObject, and RemoveTagObject functions func (t *Person) TagLen() (l int) { return len(t.tag) } // IsTagObject determines whether the call to GetTagObject is safe for the specified index func (t *Person) IsTagObject(index int) (ok bool) { return t.tag[index].Object != nil } // GetTagObject returns the value safely if IsTagObject returned true for the specified index func (t *Person) GetTagObject(index int) (v ObjectType) { return t.tag[index].Object } // AppendTagObject adds to the back of tag a ObjectType type func (t *Person) AppendTagObject(v ObjectType) { t.tag = append(t.tag, &tagPersonIntermediateType{Object: v}) } // PrependTagObject adds to the front of tag a ObjectType type func (t *Person) PrependTagObject(v ObjectType) { t.tag = append([]*tagPersonIntermediateType{&tagPersonIntermediateType{Object: v}}, t.tag...) } // RemoveTagObject deletes the value from the specified index func (t *Person) RemoveTagObject(index int) { copy(t.tag[index:], t.tag[index+1:]) t.tag[len(t.tag)-1] = nil t.tag = t.tag[:len(t.tag)-1] } // IsTagLink determines whether the call to GetTagLink is safe for the specified index func (t *Person) IsTagLink(index int) (ok bool) { return t.tag[index].Link != nil } // GetTagLink returns the value safely if IsTagLink returned true for the specified index func (t *Person) GetTagLink(index int) (v LinkType) { return t.tag[index].Link } // AppendTagLink adds to the back of tag a LinkType type func (t *Person) AppendTagLink(v LinkType) { t.tag = append(t.tag, &tagPersonIntermediateType{Link: v}) } // PrependTagLink adds to the front of tag a LinkType type func (t *Person) PrependTagLink(v LinkType) { t.tag = append([]*tagPersonIntermediateType{&tagPersonIntermediateType{Link: v}}, t.tag...) } // RemoveTagLink deletes the value from the specified index func (t *Person) RemoveTagLink(index int) { copy(t.tag[index:], t.tag[index+1:]) t.tag[len(t.tag)-1] = nil t.tag = t.tag[:len(t.tag)-1] } // IsTagIRI determines whether the call to GetTagIRI is safe for the specified index func (t *Person) IsTagIRI(index int) (ok bool) { return t.tag[index].IRI != nil } // GetTagIRI returns the value safely if IsTagIRI returned true for the specified index func (t *Person) GetTagIRI(index int) (v *url.URL) { return t.tag[index].IRI } // AppendTagIRI adds to the back of tag a *url.URL type func (t *Person) AppendTagIRI(v *url.URL) { t.tag = append(t.tag, &tagPersonIntermediateType{IRI: v}) } // PrependTagIRI adds to the front of tag a *url.URL type func (t *Person) PrependTagIRI(v *url.URL) { t.tag = append([]*tagPersonIntermediateType{&tagPersonIntermediateType{IRI: v}}, t.tag...) } // RemoveTagIRI deletes the value from the specified index func (t *Person) RemoveTagIRI(index int) { copy(t.tag[index:], t.tag[index+1:]) t.tag[len(t.tag)-1] = nil t.tag = t.tag[:len(t.tag)-1] } // HasUnknownTag determines whether the call to GetUnknownTag is safe func (t *Person) HasUnknownTag() (ok bool) { return t.tag != nil && t.tag[0].unknown_ != nil } // GetUnknownTag returns the unknown value for tag func (t *Person) GetUnknownTag() (v interface{}) { return t.tag[0].unknown_ } // SetUnknownTag sets the unknown value of tag func (t *Person) SetUnknownTag(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &tagPersonIntermediateType{} tmp.unknown_ = i t.tag = append(t.tag, tmp) } // TypeLen determines the number of elements able to be used for the GetType and RemoveType functions func (t *Person) TypeLen() (l int) { return len(t.typeName) } // GetType returns the value for the specified index func (t *Person) GetType(index int) (v interface{}) { return t.typeName[index] } // AppendType adds a value to the back of type func (t *Person) AppendType(v interface{}) { t.typeName = append(t.typeName, v) } // PrependType adds a value to the front of type func (t *Person) PrependType(v interface{}) { t.typeName = append([]interface{}{v}, t.typeName...) } // RemoveType deletes the value from the specified index func (t *Person) RemoveType(index int) { copy(t.typeName[index:], t.typeName[index+1:]) t.typeName[len(t.typeName)-1] = nil t.typeName = t.typeName[:len(t.typeName)-1] } // IsUpdated determines whether the call to GetUpdated is safe func (t *Person) IsUpdated() (ok bool) { return t.updated != nil && t.updated.dateTime != nil } // GetUpdated returns the value safely if IsUpdated returned true func (t *Person) GetUpdated() (v time.Time) { return *t.updated.dateTime } // SetUpdated sets the value of updated to be of time.Time type func (t *Person) SetUpdated(v time.Time) { t.updated = &updatedPersonIntermediateType{dateTime: &v} } // IsUpdatedIRI determines whether the call to GetUpdatedIRI is safe func (t *Person) IsUpdatedIRI() (ok bool) { return t.updated != nil && t.updated.IRI != nil } // GetUpdatedIRI returns the value safely if IsUpdatedIRI returned true func (t *Person) GetUpdatedIRI() (v *url.URL) { return t.updated.IRI } // SetUpdatedIRI sets the value of updated to be of *url.URL type func (t *Person) SetUpdatedIRI(v *url.URL) { t.updated = &updatedPersonIntermediateType{IRI: v} } // HasUnknownUpdated determines whether the call to GetUnknownUpdated is safe func (t *Person) HasUnknownUpdated() (ok bool) { return t.updated != nil && t.updated.unknown_ != nil } // GetUnknownUpdated returns the unknown value for updated func (t *Person) GetUnknownUpdated() (v interface{}) { return t.updated.unknown_ } // SetUnknownUpdated sets the unknown value of updated func (t *Person) SetUnknownUpdated(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &updatedPersonIntermediateType{} tmp.unknown_ = i t.updated = tmp } // UrlLen determines the number of elements able to be used for the IsUrlAnyURI, GetUrlAnyURI, and RemoveUrlAnyURI functions func (t *Person) UrlLen() (l int) { return len(t.url) } // IsUrlAnyURI determines whether the call to GetUrlAnyURI is safe for the specified index func (t *Person) IsUrlAnyURI(index int) (ok bool) { return t.url[index].anyURI != nil } // GetUrlAnyURI returns the value safely if IsUrlAnyURI returned true for the specified index func (t *Person) GetUrlAnyURI(index int) (v *url.URL) { return t.url[index].anyURI } // AppendUrlAnyURI adds to the back of url a *url.URL type func (t *Person) AppendUrlAnyURI(v *url.URL) { t.url = append(t.url, &urlPersonIntermediateType{anyURI: v}) } // PrependUrlAnyURI adds to the front of url a *url.URL type func (t *Person) PrependUrlAnyURI(v *url.URL) { t.url = append([]*urlPersonIntermediateType{&urlPersonIntermediateType{anyURI: v}}, t.url...) } // RemoveUrlAnyURI deletes the value from the specified index func (t *Person) RemoveUrlAnyURI(index int) { copy(t.url[index:], t.url[index+1:]) t.url[len(t.url)-1] = nil t.url = t.url[:len(t.url)-1] } // IsUrlLink determines whether the call to GetUrlLink is safe for the specified index func (t *Person) IsUrlLink(index int) (ok bool) { return t.url[index].Link != nil } // GetUrlLink returns the value safely if IsUrlLink returned true for the specified index func (t *Person) GetUrlLink(index int) (v LinkType) { return t.url[index].Link } // AppendUrlLink adds to the back of url a LinkType type func (t *Person) AppendUrlLink(v LinkType) { t.url = append(t.url, &urlPersonIntermediateType{Link: v}) } // PrependUrlLink adds to the front of url a LinkType type func (t *Person) PrependUrlLink(v LinkType) { t.url = append([]*urlPersonIntermediateType{&urlPersonIntermediateType{Link: v}}, t.url...) } // RemoveUrlLink deletes the value from the specified index func (t *Person) RemoveUrlLink(index int) { copy(t.url[index:], t.url[index+1:]) t.url[len(t.url)-1] = nil t.url = t.url[:len(t.url)-1] } // HasUnknownUrl determines whether the call to GetUnknownUrl is safe func (t *Person) HasUnknownUrl() (ok bool) { return t.url != nil && t.url[0].unknown_ != nil } // GetUnknownUrl returns the unknown value for url func (t *Person) GetUnknownUrl() (v interface{}) { return t.url[0].unknown_ } // SetUnknownUrl sets the unknown value of url func (t *Person) SetUnknownUrl(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &urlPersonIntermediateType{} tmp.unknown_ = i t.url = append(t.url, tmp) } // ToLen determines the number of elements able to be used for the IsToObject, GetToObject, and RemoveToObject functions func (t *Person) ToLen() (l int) { return len(t.to) } // IsToObject determines whether the call to GetToObject is safe for the specified index func (t *Person) IsToObject(index int) (ok bool) { return t.to[index].Object != nil } // GetToObject returns the value safely if IsToObject returned true for the specified index func (t *Person) GetToObject(index int) (v ObjectType) { return t.to[index].Object } // AppendToObject adds to the back of to a ObjectType type func (t *Person) AppendToObject(v ObjectType) { t.to = append(t.to, &toPersonIntermediateType{Object: v}) } // PrependToObject adds to the front of to a ObjectType type func (t *Person) PrependToObject(v ObjectType) { t.to = append([]*toPersonIntermediateType{&toPersonIntermediateType{Object: v}}, t.to...) } // RemoveToObject deletes the value from the specified index func (t *Person) RemoveToObject(index int) { copy(t.to[index:], t.to[index+1:]) t.to[len(t.to)-1] = nil t.to = t.to[:len(t.to)-1] } // IsToLink determines whether the call to GetToLink is safe for the specified index func (t *Person) IsToLink(index int) (ok bool) { return t.to[index].Link != nil } // GetToLink returns the value safely if IsToLink returned true for the specified index func (t *Person) GetToLink(index int) (v LinkType) { return t.to[index].Link } // AppendToLink adds to the back of to a LinkType type func (t *Person) AppendToLink(v LinkType) { t.to = append(t.to, &toPersonIntermediateType{Link: v}) } // PrependToLink adds to the front of to a LinkType type func (t *Person) PrependToLink(v LinkType) { t.to = append([]*toPersonIntermediateType{&toPersonIntermediateType{Link: v}}, t.to...) } // RemoveToLink deletes the value from the specified index func (t *Person) RemoveToLink(index int) { copy(t.to[index:], t.to[index+1:]) t.to[len(t.to)-1] = nil t.to = t.to[:len(t.to)-1] } // IsToIRI determines whether the call to GetToIRI is safe for the specified index func (t *Person) IsToIRI(index int) (ok bool) { return t.to[index].IRI != nil } // GetToIRI returns the value safely if IsToIRI returned true for the specified index func (t *Person) GetToIRI(index int) (v *url.URL) { return t.to[index].IRI } // AppendToIRI adds to the back of to a *url.URL type func (t *Person) AppendToIRI(v *url.URL) { t.to = append(t.to, &toPersonIntermediateType{IRI: v}) } // PrependToIRI adds to the front of to a *url.URL type func (t *Person) PrependToIRI(v *url.URL) { t.to = append([]*toPersonIntermediateType{&toPersonIntermediateType{IRI: v}}, t.to...) } // RemoveToIRI deletes the value from the specified index func (t *Person) RemoveToIRI(index int) { copy(t.to[index:], t.to[index+1:]) t.to[len(t.to)-1] = nil t.to = t.to[:len(t.to)-1] } // HasUnknownTo determines whether the call to GetUnknownTo is safe func (t *Person) HasUnknownTo() (ok bool) { return t.to != nil && t.to[0].unknown_ != nil } // GetUnknownTo returns the unknown value for to func (t *Person) GetUnknownTo() (v interface{}) { return t.to[0].unknown_ } // SetUnknownTo sets the unknown value of to func (t *Person) SetUnknownTo(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &toPersonIntermediateType{} tmp.unknown_ = i t.to = append(t.to, tmp) } // BtoLen determines the number of elements able to be used for the IsBtoObject, GetBtoObject, and RemoveBtoObject functions func (t *Person) BtoLen() (l int) { return len(t.bto) } // IsBtoObject determines whether the call to GetBtoObject is safe for the specified index func (t *Person) IsBtoObject(index int) (ok bool) { return t.bto[index].Object != nil } // GetBtoObject returns the value safely if IsBtoObject returned true for the specified index func (t *Person) GetBtoObject(index int) (v ObjectType) { return t.bto[index].Object } // AppendBtoObject adds to the back of bto a ObjectType type func (t *Person) AppendBtoObject(v ObjectType) { t.bto = append(t.bto, &btoPersonIntermediateType{Object: v}) } // PrependBtoObject adds to the front of bto a ObjectType type func (t *Person) PrependBtoObject(v ObjectType) { t.bto = append([]*btoPersonIntermediateType{&btoPersonIntermediateType{Object: v}}, t.bto...) } // RemoveBtoObject deletes the value from the specified index func (t *Person) RemoveBtoObject(index int) { copy(t.bto[index:], t.bto[index+1:]) t.bto[len(t.bto)-1] = nil t.bto = t.bto[:len(t.bto)-1] } // IsBtoLink determines whether the call to GetBtoLink is safe for the specified index func (t *Person) IsBtoLink(index int) (ok bool) { return t.bto[index].Link != nil } // GetBtoLink returns the value safely if IsBtoLink returned true for the specified index func (t *Person) GetBtoLink(index int) (v LinkType) { return t.bto[index].Link } // AppendBtoLink adds to the back of bto a LinkType type func (t *Person) AppendBtoLink(v LinkType) { t.bto = append(t.bto, &btoPersonIntermediateType{Link: v}) } // PrependBtoLink adds to the front of bto a LinkType type func (t *Person) PrependBtoLink(v LinkType) { t.bto = append([]*btoPersonIntermediateType{&btoPersonIntermediateType{Link: v}}, t.bto...) } // RemoveBtoLink deletes the value from the specified index func (t *Person) RemoveBtoLink(index int) { copy(t.bto[index:], t.bto[index+1:]) t.bto[len(t.bto)-1] = nil t.bto = t.bto[:len(t.bto)-1] } // IsBtoIRI determines whether the call to GetBtoIRI is safe for the specified index func (t *Person) IsBtoIRI(index int) (ok bool) { return t.bto[index].IRI != nil } // GetBtoIRI returns the value safely if IsBtoIRI returned true for the specified index func (t *Person) GetBtoIRI(index int) (v *url.URL) { return t.bto[index].IRI } // AppendBtoIRI adds to the back of bto a *url.URL type func (t *Person) AppendBtoIRI(v *url.URL) { t.bto = append(t.bto, &btoPersonIntermediateType{IRI: v}) } // PrependBtoIRI adds to the front of bto a *url.URL type func (t *Person) PrependBtoIRI(v *url.URL) { t.bto = append([]*btoPersonIntermediateType{&btoPersonIntermediateType{IRI: v}}, t.bto...) } // RemoveBtoIRI deletes the value from the specified index func (t *Person) RemoveBtoIRI(index int) { copy(t.bto[index:], t.bto[index+1:]) t.bto[len(t.bto)-1] = nil t.bto = t.bto[:len(t.bto)-1] } // HasUnknownBto determines whether the call to GetUnknownBto is safe func (t *Person) HasUnknownBto() (ok bool) { return t.bto != nil && t.bto[0].unknown_ != nil } // GetUnknownBto returns the unknown value for bto func (t *Person) GetUnknownBto() (v interface{}) { return t.bto[0].unknown_ } // SetUnknownBto sets the unknown value of bto func (t *Person) SetUnknownBto(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &btoPersonIntermediateType{} tmp.unknown_ = i t.bto = append(t.bto, tmp) } // CcLen determines the number of elements able to be used for the IsCcObject, GetCcObject, and RemoveCcObject functions func (t *Person) CcLen() (l int) { return len(t.cc) } // IsCcObject determines whether the call to GetCcObject is safe for the specified index func (t *Person) IsCcObject(index int) (ok bool) { return t.cc[index].Object != nil } // GetCcObject returns the value safely if IsCcObject returned true for the specified index func (t *Person) GetCcObject(index int) (v ObjectType) { return t.cc[index].Object } // AppendCcObject adds to the back of cc a ObjectType type func (t *Person) AppendCcObject(v ObjectType) { t.cc = append(t.cc, &ccPersonIntermediateType{Object: v}) } // PrependCcObject adds to the front of cc a ObjectType type func (t *Person) PrependCcObject(v ObjectType) { t.cc = append([]*ccPersonIntermediateType{&ccPersonIntermediateType{Object: v}}, t.cc...) } // RemoveCcObject deletes the value from the specified index func (t *Person) RemoveCcObject(index int) { copy(t.cc[index:], t.cc[index+1:]) t.cc[len(t.cc)-1] = nil t.cc = t.cc[:len(t.cc)-1] } // IsCcLink determines whether the call to GetCcLink is safe for the specified index func (t *Person) IsCcLink(index int) (ok bool) { return t.cc[index].Link != nil } // GetCcLink returns the value safely if IsCcLink returned true for the specified index func (t *Person) GetCcLink(index int) (v LinkType) { return t.cc[index].Link } // AppendCcLink adds to the back of cc a LinkType type func (t *Person) AppendCcLink(v LinkType) { t.cc = append(t.cc, &ccPersonIntermediateType{Link: v}) } // PrependCcLink adds to the front of cc a LinkType type func (t *Person) PrependCcLink(v LinkType) { t.cc = append([]*ccPersonIntermediateType{&ccPersonIntermediateType{Link: v}}, t.cc...) } // RemoveCcLink deletes the value from the specified index func (t *Person) RemoveCcLink(index int) { copy(t.cc[index:], t.cc[index+1:]) t.cc[len(t.cc)-1] = nil t.cc = t.cc[:len(t.cc)-1] } // IsCcIRI determines whether the call to GetCcIRI is safe for the specified index func (t *Person) IsCcIRI(index int) (ok bool) { return t.cc[index].IRI != nil } // GetCcIRI returns the value safely if IsCcIRI returned true for the specified index func (t *Person) GetCcIRI(index int) (v *url.URL) { return t.cc[index].IRI } // AppendCcIRI adds to the back of cc a *url.URL type func (t *Person) AppendCcIRI(v *url.URL) { t.cc = append(t.cc, &ccPersonIntermediateType{IRI: v}) } // PrependCcIRI adds to the front of cc a *url.URL type func (t *Person) PrependCcIRI(v *url.URL) { t.cc = append([]*ccPersonIntermediateType{&ccPersonIntermediateType{IRI: v}}, t.cc...) } // RemoveCcIRI deletes the value from the specified index func (t *Person) RemoveCcIRI(index int) { copy(t.cc[index:], t.cc[index+1:]) t.cc[len(t.cc)-1] = nil t.cc = t.cc[:len(t.cc)-1] } // HasUnknownCc determines whether the call to GetUnknownCc is safe func (t *Person) HasUnknownCc() (ok bool) { return t.cc != nil && t.cc[0].unknown_ != nil } // GetUnknownCc returns the unknown value for cc func (t *Person) GetUnknownCc() (v interface{}) { return t.cc[0].unknown_ } // SetUnknownCc sets the unknown value of cc func (t *Person) SetUnknownCc(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &ccPersonIntermediateType{} tmp.unknown_ = i t.cc = append(t.cc, tmp) } // BccLen determines the number of elements able to be used for the IsBccObject, GetBccObject, and RemoveBccObject functions func (t *Person) BccLen() (l int) { return len(t.bcc) } // IsBccObject determines whether the call to GetBccObject is safe for the specified index func (t *Person) IsBccObject(index int) (ok bool) { return t.bcc[index].Object != nil } // GetBccObject returns the value safely if IsBccObject returned true for the specified index func (t *Person) GetBccObject(index int) (v ObjectType) { return t.bcc[index].Object } // AppendBccObject adds to the back of bcc a ObjectType type func (t *Person) AppendBccObject(v ObjectType) { t.bcc = append(t.bcc, &bccPersonIntermediateType{Object: v}) } // PrependBccObject adds to the front of bcc a ObjectType type func (t *Person) PrependBccObject(v ObjectType) { t.bcc = append([]*bccPersonIntermediateType{&bccPersonIntermediateType{Object: v}}, t.bcc...) } // RemoveBccObject deletes the value from the specified index func (t *Person) RemoveBccObject(index int) { copy(t.bcc[index:], t.bcc[index+1:]) t.bcc[len(t.bcc)-1] = nil t.bcc = t.bcc[:len(t.bcc)-1] } // IsBccLink determines whether the call to GetBccLink is safe for the specified index func (t *Person) IsBccLink(index int) (ok bool) { return t.bcc[index].Link != nil } // GetBccLink returns the value safely if IsBccLink returned true for the specified index func (t *Person) GetBccLink(index int) (v LinkType) { return t.bcc[index].Link } // AppendBccLink adds to the back of bcc a LinkType type func (t *Person) AppendBccLink(v LinkType) { t.bcc = append(t.bcc, &bccPersonIntermediateType{Link: v}) } // PrependBccLink adds to the front of bcc a LinkType type func (t *Person) PrependBccLink(v LinkType) { t.bcc = append([]*bccPersonIntermediateType{&bccPersonIntermediateType{Link: v}}, t.bcc...) } // RemoveBccLink deletes the value from the specified index func (t *Person) RemoveBccLink(index int) { copy(t.bcc[index:], t.bcc[index+1:]) t.bcc[len(t.bcc)-1] = nil t.bcc = t.bcc[:len(t.bcc)-1] } // IsBccIRI determines whether the call to GetBccIRI is safe for the specified index func (t *Person) IsBccIRI(index int) (ok bool) { return t.bcc[index].IRI != nil } // GetBccIRI returns the value safely if IsBccIRI returned true for the specified index func (t *Person) GetBccIRI(index int) (v *url.URL) { return t.bcc[index].IRI } // AppendBccIRI adds to the back of bcc a *url.URL type func (t *Person) AppendBccIRI(v *url.URL) { t.bcc = append(t.bcc, &bccPersonIntermediateType{IRI: v}) } // PrependBccIRI adds to the front of bcc a *url.URL type func (t *Person) PrependBccIRI(v *url.URL) { t.bcc = append([]*bccPersonIntermediateType{&bccPersonIntermediateType{IRI: v}}, t.bcc...) } // RemoveBccIRI deletes the value from the specified index func (t *Person) RemoveBccIRI(index int) { copy(t.bcc[index:], t.bcc[index+1:]) t.bcc[len(t.bcc)-1] = nil t.bcc = t.bcc[:len(t.bcc)-1] } // HasUnknownBcc determines whether the call to GetUnknownBcc is safe func (t *Person) HasUnknownBcc() (ok bool) { return t.bcc != nil && t.bcc[0].unknown_ != nil } // GetUnknownBcc returns the unknown value for bcc func (t *Person) GetUnknownBcc() (v interface{}) { return t.bcc[0].unknown_ } // SetUnknownBcc sets the unknown value of bcc func (t *Person) SetUnknownBcc(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &bccPersonIntermediateType{} tmp.unknown_ = i t.bcc = append(t.bcc, tmp) } // IsMediaType determines whether the call to GetMediaType is safe func (t *Person) IsMediaType() (ok bool) { return t.mediaType != nil && t.mediaType.mimeMediaTypeValue != nil } // GetMediaType returns the value safely if IsMediaType returned true func (t *Person) GetMediaType() (v string) { return *t.mediaType.mimeMediaTypeValue } // SetMediaType sets the value of mediaType to be of string type func (t *Person) SetMediaType(v string) { t.mediaType = &mediaTypePersonIntermediateType{mimeMediaTypeValue: &v} } // IsMediaTypeIRI determines whether the call to GetMediaTypeIRI is safe func (t *Person) IsMediaTypeIRI() (ok bool) { return t.mediaType != nil && t.mediaType.IRI != nil } // GetMediaTypeIRI returns the value safely if IsMediaTypeIRI returned true func (t *Person) GetMediaTypeIRI() (v *url.URL) { return t.mediaType.IRI } // SetMediaTypeIRI sets the value of mediaType to be of *url.URL type func (t *Person) SetMediaTypeIRI(v *url.URL) { t.mediaType = &mediaTypePersonIntermediateType{IRI: v} } // HasUnknownMediaType determines whether the call to GetUnknownMediaType is safe func (t *Person) HasUnknownMediaType() (ok bool) { return t.mediaType != nil && t.mediaType.unknown_ != nil } // GetUnknownMediaType returns the unknown value for mediaType func (t *Person) GetUnknownMediaType() (v interface{}) { return t.mediaType.unknown_ } // SetUnknownMediaType sets the unknown value of mediaType func (t *Person) SetUnknownMediaType(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &mediaTypePersonIntermediateType{} tmp.unknown_ = i t.mediaType = tmp } // IsDuration determines whether the call to GetDuration is safe func (t *Person) IsDuration() (ok bool) { return t.duration != nil && t.duration.duration != nil } // GetDuration returns the value safely if IsDuration returned true func (t *Person) GetDuration() (v time.Duration) { return *t.duration.duration } // SetDuration sets the value of duration to be of time.Duration type func (t *Person) SetDuration(v time.Duration) { t.duration = &durationPersonIntermediateType{duration: &v} } // IsDurationIRI determines whether the call to GetDurationIRI is safe func (t *Person) IsDurationIRI() (ok bool) { return t.duration != nil && t.duration.IRI != nil } // GetDurationIRI returns the value safely if IsDurationIRI returned true func (t *Person) GetDurationIRI() (v *url.URL) { return t.duration.IRI } // SetDurationIRI sets the value of duration to be of *url.URL type func (t *Person) SetDurationIRI(v *url.URL) { t.duration = &durationPersonIntermediateType{IRI: v} } // HasUnknownDuration determines whether the call to GetUnknownDuration is safe func (t *Person) HasUnknownDuration() (ok bool) { return t.duration != nil && t.duration.unknown_ != nil } // GetUnknownDuration returns the unknown value for duration func (t *Person) GetUnknownDuration() (v interface{}) { return t.duration.unknown_ } // SetUnknownDuration sets the unknown value of duration func (t *Person) SetUnknownDuration(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &durationPersonIntermediateType{} tmp.unknown_ = i t.duration = tmp } // IsSource determines whether the call to GetSource is safe func (t *Person) IsSource() (ok bool) { return t.source != nil && t.source.Object != nil } // GetSource returns the value safely if IsSource returned true func (t *Person) GetSource() (v ObjectType) { return t.source.Object } // SetSource sets the value of source to be of ObjectType type func (t *Person) SetSource(v ObjectType) { t.source = &sourcePersonIntermediateType{Object: v} } // IsSourceIRI determines whether the call to GetSourceIRI is safe func (t *Person) IsSourceIRI() (ok bool) { return t.source != nil && t.source.IRI != nil } // GetSourceIRI returns the value safely if IsSourceIRI returned true func (t *Person) GetSourceIRI() (v *url.URL) { return t.source.IRI } // SetSourceIRI sets the value of source to be of *url.URL type func (t *Person) SetSourceIRI(v *url.URL) { t.source = &sourcePersonIntermediateType{IRI: v} } // HasUnknownSource determines whether the call to GetUnknownSource is safe func (t *Person) HasUnknownSource() (ok bool) { return t.source != nil && t.source.unknown_ != nil } // GetUnknownSource returns the unknown value for source func (t *Person) GetUnknownSource() (v interface{}) { return t.source.unknown_ } // SetUnknownSource sets the unknown value of source func (t *Person) SetUnknownSource(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &sourcePersonIntermediateType{} tmp.unknown_ = i t.source = tmp } // IsInboxOrderedCollection determines whether the call to GetInboxOrderedCollection is safe func (t *Person) IsInboxOrderedCollection() (ok bool) { return t.inbox != nil && t.inbox.OrderedCollection != nil } // GetInboxOrderedCollection returns the value safely if IsInboxOrderedCollection returned true func (t *Person) GetInboxOrderedCollection() (v OrderedCollectionType) { return t.inbox.OrderedCollection } // SetInboxOrderedCollection sets the value of inbox to be of OrderedCollectionType type func (t *Person) SetInboxOrderedCollection(v OrderedCollectionType) { t.inbox = &inboxPersonIntermediateType{OrderedCollection: v} } // IsInboxAnyURI determines whether the call to GetInboxAnyURI is safe func (t *Person) IsInboxAnyURI() (ok bool) { return t.inbox != nil && t.inbox.anyURI != nil } // GetInboxAnyURI returns the value safely if IsInboxAnyURI returned true func (t *Person) GetInboxAnyURI() (v *url.URL) { return t.inbox.anyURI } // SetInboxAnyURI sets the value of inbox to be of *url.URL type func (t *Person) SetInboxAnyURI(v *url.URL) { t.inbox = &inboxPersonIntermediateType{anyURI: v} } // HasUnknownInbox determines whether the call to GetUnknownInbox is safe func (t *Person) HasUnknownInbox() (ok bool) { return t.inbox != nil && t.inbox.unknown_ != nil } // GetUnknownInbox returns the unknown value for inbox func (t *Person) GetUnknownInbox() (v interface{}) { return t.inbox.unknown_ } // SetUnknownInbox sets the unknown value of inbox func (t *Person) SetUnknownInbox(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &inboxPersonIntermediateType{} tmp.unknown_ = i t.inbox = tmp } // IsOutboxOrderedCollection determines whether the call to GetOutboxOrderedCollection is safe func (t *Person) IsOutboxOrderedCollection() (ok bool) { return t.outbox != nil && t.outbox.OrderedCollection != nil } // GetOutboxOrderedCollection returns the value safely if IsOutboxOrderedCollection returned true func (t *Person) GetOutboxOrderedCollection() (v OrderedCollectionType) { return t.outbox.OrderedCollection } // SetOutboxOrderedCollection sets the value of outbox to be of OrderedCollectionType type func (t *Person) SetOutboxOrderedCollection(v OrderedCollectionType) { t.outbox = &outboxPersonIntermediateType{OrderedCollection: v} } // IsOutboxAnyURI determines whether the call to GetOutboxAnyURI is safe func (t *Person) IsOutboxAnyURI() (ok bool) { return t.outbox != nil && t.outbox.anyURI != nil } // GetOutboxAnyURI returns the value safely if IsOutboxAnyURI returned true func (t *Person) GetOutboxAnyURI() (v *url.URL) { return t.outbox.anyURI } // SetOutboxAnyURI sets the value of outbox to be of *url.URL type func (t *Person) SetOutboxAnyURI(v *url.URL) { t.outbox = &outboxPersonIntermediateType{anyURI: v} } // HasUnknownOutbox determines whether the call to GetUnknownOutbox is safe func (t *Person) HasUnknownOutbox() (ok bool) { return t.outbox != nil && t.outbox.unknown_ != nil } // GetUnknownOutbox returns the unknown value for outbox func (t *Person) GetUnknownOutbox() (v interface{}) { return t.outbox.unknown_ } // SetUnknownOutbox sets the unknown value of outbox func (t *Person) SetUnknownOutbox(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &outboxPersonIntermediateType{} tmp.unknown_ = i t.outbox = tmp } // IsFollowingCollection determines whether the call to GetFollowingCollection is safe func (t *Person) IsFollowingCollection() (ok bool) { return t.following != nil && t.following.Collection != nil } // GetFollowingCollection returns the value safely if IsFollowingCollection returned true func (t *Person) GetFollowingCollection() (v CollectionType) { return t.following.Collection } // SetFollowingCollection sets the value of following to be of CollectionType type func (t *Person) SetFollowingCollection(v CollectionType) { t.following = &followingPersonIntermediateType{Collection: v} } // IsFollowingOrderedCollection determines whether the call to GetFollowingOrderedCollection is safe func (t *Person) IsFollowingOrderedCollection() (ok bool) { return t.following != nil && t.following.OrderedCollection != nil } // GetFollowingOrderedCollection returns the value safely if IsFollowingOrderedCollection returned true func (t *Person) GetFollowingOrderedCollection() (v OrderedCollectionType) { return t.following.OrderedCollection } // SetFollowingOrderedCollection sets the value of following to be of OrderedCollectionType type func (t *Person) SetFollowingOrderedCollection(v OrderedCollectionType) { t.following = &followingPersonIntermediateType{OrderedCollection: v} } // IsFollowingAnyURI determines whether the call to GetFollowingAnyURI is safe func (t *Person) IsFollowingAnyURI() (ok bool) { return t.following != nil && t.following.anyURI != nil } // GetFollowingAnyURI returns the value safely if IsFollowingAnyURI returned true func (t *Person) GetFollowingAnyURI() (v *url.URL) { return t.following.anyURI } // SetFollowingAnyURI sets the value of following to be of *url.URL type func (t *Person) SetFollowingAnyURI(v *url.URL) { t.following = &followingPersonIntermediateType{anyURI: v} } // HasUnknownFollowing determines whether the call to GetUnknownFollowing is safe func (t *Person) HasUnknownFollowing() (ok bool) { return t.following != nil && t.following.unknown_ != nil } // GetUnknownFollowing returns the unknown value for following func (t *Person) GetUnknownFollowing() (v interface{}) { return t.following.unknown_ } // SetUnknownFollowing sets the unknown value of following func (t *Person) SetUnknownFollowing(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &followingPersonIntermediateType{} tmp.unknown_ = i t.following = tmp } // IsFollowersCollection determines whether the call to GetFollowersCollection is safe func (t *Person) IsFollowersCollection() (ok bool) { return t.followers != nil && t.followers.Collection != nil } // GetFollowersCollection returns the value safely if IsFollowersCollection returned true func (t *Person) GetFollowersCollection() (v CollectionType) { return t.followers.Collection } // SetFollowersCollection sets the value of followers to be of CollectionType type func (t *Person) SetFollowersCollection(v CollectionType) { t.followers = &followersPersonIntermediateType{Collection: v} } // IsFollowersOrderedCollection determines whether the call to GetFollowersOrderedCollection is safe func (t *Person) IsFollowersOrderedCollection() (ok bool) { return t.followers != nil && t.followers.OrderedCollection != nil } // GetFollowersOrderedCollection returns the value safely if IsFollowersOrderedCollection returned true func (t *Person) GetFollowersOrderedCollection() (v OrderedCollectionType) { return t.followers.OrderedCollection } // SetFollowersOrderedCollection sets the value of followers to be of OrderedCollectionType type func (t *Person) SetFollowersOrderedCollection(v OrderedCollectionType) { t.followers = &followersPersonIntermediateType{OrderedCollection: v} } // IsFollowersAnyURI determines whether the call to GetFollowersAnyURI is safe func (t *Person) IsFollowersAnyURI() (ok bool) { return t.followers != nil && t.followers.anyURI != nil } // GetFollowersAnyURI returns the value safely if IsFollowersAnyURI returned true func (t *Person) GetFollowersAnyURI() (v *url.URL) { return t.followers.anyURI } // SetFollowersAnyURI sets the value of followers to be of *url.URL type func (t *Person) SetFollowersAnyURI(v *url.URL) { t.followers = &followersPersonIntermediateType{anyURI: v} } // HasUnknownFollowers determines whether the call to GetUnknownFollowers is safe func (t *Person) HasUnknownFollowers() (ok bool) { return t.followers != nil && t.followers.unknown_ != nil } // GetUnknownFollowers returns the unknown value for followers func (t *Person) GetUnknownFollowers() (v interface{}) { return t.followers.unknown_ } // SetUnknownFollowers sets the unknown value of followers func (t *Person) SetUnknownFollowers(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &followersPersonIntermediateType{} tmp.unknown_ = i t.followers = tmp } // IsLikedCollection determines whether the call to GetLikedCollection is safe func (t *Person) IsLikedCollection() (ok bool) { return t.liked != nil && t.liked.Collection != nil } // GetLikedCollection returns the value safely if IsLikedCollection returned true func (t *Person) GetLikedCollection() (v CollectionType) { return t.liked.Collection } // SetLikedCollection sets the value of liked to be of CollectionType type func (t *Person) SetLikedCollection(v CollectionType) { t.liked = &likedPersonIntermediateType{Collection: v} } // IsLikedOrderedCollection determines whether the call to GetLikedOrderedCollection is safe func (t *Person) IsLikedOrderedCollection() (ok bool) { return t.liked != nil && t.liked.OrderedCollection != nil } // GetLikedOrderedCollection returns the value safely if IsLikedOrderedCollection returned true func (t *Person) GetLikedOrderedCollection() (v OrderedCollectionType) { return t.liked.OrderedCollection } // SetLikedOrderedCollection sets the value of liked to be of OrderedCollectionType type func (t *Person) SetLikedOrderedCollection(v OrderedCollectionType) { t.liked = &likedPersonIntermediateType{OrderedCollection: v} } // IsLikedAnyURI determines whether the call to GetLikedAnyURI is safe func (t *Person) IsLikedAnyURI() (ok bool) { return t.liked != nil && t.liked.anyURI != nil } // GetLikedAnyURI returns the value safely if IsLikedAnyURI returned true func (t *Person) GetLikedAnyURI() (v *url.URL) { return t.liked.anyURI } // SetLikedAnyURI sets the value of liked to be of *url.URL type func (t *Person) SetLikedAnyURI(v *url.URL) { t.liked = &likedPersonIntermediateType{anyURI: v} } // HasUnknownLiked determines whether the call to GetUnknownLiked is safe func (t *Person) HasUnknownLiked() (ok bool) { return t.liked != nil && t.liked.unknown_ != nil } // GetUnknownLiked returns the unknown value for liked func (t *Person) GetUnknownLiked() (v interface{}) { return t.liked.unknown_ } // SetUnknownLiked sets the unknown value of liked func (t *Person) SetUnknownLiked(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &likedPersonIntermediateType{} tmp.unknown_ = i t.liked = tmp } // IsLikesCollection determines whether the call to GetLikesCollection is safe func (t *Person) IsLikesCollection() (ok bool) { return t.likes != nil && t.likes.Collection != nil } // GetLikesCollection returns the value safely if IsLikesCollection returned true func (t *Person) GetLikesCollection() (v CollectionType) { return t.likes.Collection } // SetLikesCollection sets the value of likes to be of CollectionType type func (t *Person) SetLikesCollection(v CollectionType) { t.likes = &likesPersonIntermediateType{Collection: v} } // IsLikesOrderedCollection determines whether the call to GetLikesOrderedCollection is safe func (t *Person) IsLikesOrderedCollection() (ok bool) { return t.likes != nil && t.likes.OrderedCollection != nil } // GetLikesOrderedCollection returns the value safely if IsLikesOrderedCollection returned true func (t *Person) GetLikesOrderedCollection() (v OrderedCollectionType) { return t.likes.OrderedCollection } // SetLikesOrderedCollection sets the value of likes to be of OrderedCollectionType type func (t *Person) SetLikesOrderedCollection(v OrderedCollectionType) { t.likes = &likesPersonIntermediateType{OrderedCollection: v} } // IsLikesAnyURI determines whether the call to GetLikesAnyURI is safe func (t *Person) IsLikesAnyURI() (ok bool) { return t.likes != nil && t.likes.anyURI != nil } // GetLikesAnyURI returns the value safely if IsLikesAnyURI returned true func (t *Person) GetLikesAnyURI() (v *url.URL) { return t.likes.anyURI } // SetLikesAnyURI sets the value of likes to be of *url.URL type func (t *Person) SetLikesAnyURI(v *url.URL) { t.likes = &likesPersonIntermediateType{anyURI: v} } // HasUnknownLikes determines whether the call to GetUnknownLikes is safe func (t *Person) HasUnknownLikes() (ok bool) { return t.likes != nil && t.likes.unknown_ != nil } // GetUnknownLikes returns the unknown value for likes func (t *Person) GetUnknownLikes() (v interface{}) { return t.likes.unknown_ } // SetUnknownLikes sets the unknown value of likes func (t *Person) SetUnknownLikes(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &likesPersonIntermediateType{} tmp.unknown_ = i t.likes = tmp } // StreamsLen determines the number of elements able to be used for the GetStreams and RemoveStreams functions func (t *Person) StreamsLen() (l int) { return len(t.streams) } // GetStreams returns the value for the specified index func (t *Person) GetStreams(index int) (v *url.URL) { return t.streams[index] } // AppendStreams adds a value to the back of streams func (t *Person) AppendStreams(v *url.URL) { t.streams = append(t.streams, v) } // PrependStreams adds a value to the front of streams func (t *Person) PrependStreams(v *url.URL) { t.streams = append([]*url.URL{v}, t.streams...) } // RemoveStreams deletes the value from the specified index func (t *Person) RemoveStreams(index int) { copy(t.streams[index:], t.streams[index+1:]) t.streams[len(t.streams)-1] = nil t.streams = t.streams[:len(t.streams)-1] } // HasUnknownStreams determines whether the call to GetUnknownStreams is safe func (t *Person) HasUnknownStreams() (ok bool) { return t.unknown_ != nil && t.unknown_["streams"] != nil } // GetUnknownStreams returns the unknown value for streams func (t *Person) GetUnknownStreams() (v interface{}) { return t.unknown_["streams"] } // SetUnknownStreams sets the unknown value of streams func (t *Person) SetUnknownStreams(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } t.unknown_["streams"] = i } // IsPreferredUsername determines whether the call to GetPreferredUsername is safe func (t *Person) IsPreferredUsername() (ok bool) { return t.preferredUsername != nil && t.preferredUsername.stringName != nil } // GetPreferredUsername returns the value safely if IsPreferredUsername returned true func (t *Person) GetPreferredUsername() (v string) { return *t.preferredUsername.stringName } // SetPreferredUsername sets the value of preferredUsername to be of string type func (t *Person) SetPreferredUsername(v string) { t.preferredUsername = &preferredUsernamePersonIntermediateType{stringName: &v} } // IsPreferredUsernameIRI determines whether the call to GetPreferredUsernameIRI is safe func (t *Person) IsPreferredUsernameIRI() (ok bool) { return t.preferredUsername != nil && t.preferredUsername.IRI != nil } // GetPreferredUsernameIRI returns the value safely if IsPreferredUsernameIRI returned true func (t *Person) GetPreferredUsernameIRI() (v *url.URL) { return t.preferredUsername.IRI } // SetPreferredUsernameIRI sets the value of preferredUsername to be of *url.URL type func (t *Person) SetPreferredUsernameIRI(v *url.URL) { t.preferredUsername = &preferredUsernamePersonIntermediateType{IRI: v} } // HasUnknownPreferredUsername determines whether the call to GetUnknownPreferredUsername is safe func (t *Person) HasUnknownPreferredUsername() (ok bool) { return t.preferredUsername != nil && t.preferredUsername.unknown_ != nil } // GetUnknownPreferredUsername returns the unknown value for preferredUsername func (t *Person) GetUnknownPreferredUsername() (v interface{}) { return t.preferredUsername.unknown_ } // SetUnknownPreferredUsername sets the unknown value of preferredUsername func (t *Person) SetUnknownPreferredUsername(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &preferredUsernamePersonIntermediateType{} tmp.unknown_ = i t.preferredUsername = tmp } // PreferredUsernameMapLanguages returns all languages for this property's language mapping, or nil if there are none. func (t *Person) PreferredUsernameMapLanguages() (l []string) { if t.preferredUsernameMap == nil || len(t.preferredUsernameMap) == 0 { return nil } for k := range t.preferredUsernameMap { l = append(l, k) } return } // GetPreferredUsernameMap retrieves the value of the property for the specified language, or an empty string if it does not exist func (t *Person) GetPreferredUsernameMap(l string) (v string) { if t.preferredUsernameMap == nil { return "" } ok := false v, ok = t.preferredUsernameMap[l] if !ok { return "" } return v } // SetPreferredUsernameMap sets the value of the property for the specified language func (t *Person) SetPreferredUsernameMap(l string, v string) { if t.preferredUsernameMap == nil { t.preferredUsernameMap = make(map[string]string) } t.preferredUsernameMap[l] = v } // IsEndpoints determines whether the call to GetEndpoints is safe func (t *Person) IsEndpoints() (ok bool) { return t.endpoints != nil && t.endpoints.Object != nil } // GetEndpoints returns the value safely if IsEndpoints returned true func (t *Person) GetEndpoints() (v ObjectType) { return t.endpoints.Object } // SetEndpoints sets the value of endpoints to be of ObjectType type func (t *Person) SetEndpoints(v ObjectType) { t.endpoints = &endpointsPersonIntermediateType{Object: v} } // IsEndpointsIRI determines whether the call to GetEndpointsIRI is safe func (t *Person) IsEndpointsIRI() (ok bool) { return t.endpoints != nil && t.endpoints.IRI != nil } // GetEndpointsIRI returns the value safely if IsEndpointsIRI returned true func (t *Person) GetEndpointsIRI() (v *url.URL) { return t.endpoints.IRI } // SetEndpointsIRI sets the value of endpoints to be of *url.URL type func (t *Person) SetEndpointsIRI(v *url.URL) { t.endpoints = &endpointsPersonIntermediateType{IRI: v} } // HasUnknownEndpoints determines whether the call to GetUnknownEndpoints is safe func (t *Person) HasUnknownEndpoints() (ok bool) { return t.endpoints != nil && t.endpoints.unknown_ != nil } // GetUnknownEndpoints returns the unknown value for endpoints func (t *Person) GetUnknownEndpoints() (v interface{}) { return t.endpoints.unknown_ } // SetUnknownEndpoints sets the unknown value of endpoints func (t *Person) SetUnknownEndpoints(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &endpointsPersonIntermediateType{} tmp.unknown_ = i t.endpoints = tmp } // HasProxyUrl determines whether the call to GetProxyUrl is safe func (t *Person) HasProxyUrl() (ok bool) { return t.proxyUrl != nil } // GetProxyUrl returns the value for proxyUrl func (t *Person) GetProxyUrl() (v *url.URL) { return t.proxyUrl } // SetProxyUrl sets the value of proxyUrl func (t *Person) SetProxyUrl(v *url.URL) { t.proxyUrl = v } // HasUnknownProxyUrl determines whether the call to GetUnknownProxyUrl is safe func (t *Person) HasUnknownProxyUrl() (ok bool) { return t.unknown_ != nil && t.unknown_["proxyUrl"] != nil } // GetUnknownProxyUrl returns the unknown value for proxyUrl func (t *Person) GetUnknownProxyUrl() (v interface{}) { return t.unknown_["proxyUrl"] } // SetUnknownProxyUrl sets the unknown value of proxyUrl func (t *Person) SetUnknownProxyUrl(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } t.unknown_["proxyUrl"] = i } // HasOauthAuthorizationEndpoint determines whether the call to GetOauthAuthorizationEndpoint is safe func (t *Person) HasOauthAuthorizationEndpoint() (ok bool) { return t.oauthAuthorizationEndpoint != nil } // GetOauthAuthorizationEndpoint returns the value for oauthAuthorizationEndpoint func (t *Person) GetOauthAuthorizationEndpoint() (v *url.URL) { return t.oauthAuthorizationEndpoint } // SetOauthAuthorizationEndpoint sets the value of oauthAuthorizationEndpoint func (t *Person) SetOauthAuthorizationEndpoint(v *url.URL) { t.oauthAuthorizationEndpoint = v } // HasUnknownOauthAuthorizationEndpoint determines whether the call to GetUnknownOauthAuthorizationEndpoint is safe func (t *Person) HasUnknownOauthAuthorizationEndpoint() (ok bool) { return t.unknown_ != nil && t.unknown_["oauthAuthorizationEndpoint"] != nil } // GetUnknownOauthAuthorizationEndpoint returns the unknown value for oauthAuthorizationEndpoint func (t *Person) GetUnknownOauthAuthorizationEndpoint() (v interface{}) { return t.unknown_["oauthAuthorizationEndpoint"] } // SetUnknownOauthAuthorizationEndpoint sets the unknown value of oauthAuthorizationEndpoint func (t *Person) SetUnknownOauthAuthorizationEndpoint(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } t.unknown_["oauthAuthorizationEndpoint"] = i } // HasOauthTokenEndpoint determines whether the call to GetOauthTokenEndpoint is safe func (t *Person) HasOauthTokenEndpoint() (ok bool) { return t.oauthTokenEndpoint != nil } // GetOauthTokenEndpoint returns the value for oauthTokenEndpoint func (t *Person) GetOauthTokenEndpoint() (v *url.URL) { return t.oauthTokenEndpoint } // SetOauthTokenEndpoint sets the value of oauthTokenEndpoint func (t *Person) SetOauthTokenEndpoint(v *url.URL) { t.oauthTokenEndpoint = v } // HasUnknownOauthTokenEndpoint determines whether the call to GetUnknownOauthTokenEndpoint is safe func (t *Person) HasUnknownOauthTokenEndpoint() (ok bool) { return t.unknown_ != nil && t.unknown_["oauthTokenEndpoint"] != nil } // GetUnknownOauthTokenEndpoint returns the unknown value for oauthTokenEndpoint func (t *Person) GetUnknownOauthTokenEndpoint() (v interface{}) { return t.unknown_["oauthTokenEndpoint"] } // SetUnknownOauthTokenEndpoint sets the unknown value of oauthTokenEndpoint func (t *Person) SetUnknownOauthTokenEndpoint(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } t.unknown_["oauthTokenEndpoint"] = i } // HasProvideClientKey determines whether the call to GetProvideClientKey is safe func (t *Person) HasProvideClientKey() (ok bool) { return t.provideClientKey != nil } // GetProvideClientKey returns the value for provideClientKey func (t *Person) GetProvideClientKey() (v *url.URL) { return t.provideClientKey } // SetProvideClientKey sets the value of provideClientKey func (t *Person) SetProvideClientKey(v *url.URL) { t.provideClientKey = v } // HasUnknownProvideClientKey determines whether the call to GetUnknownProvideClientKey is safe func (t *Person) HasUnknownProvideClientKey() (ok bool) { return t.unknown_ != nil && t.unknown_["provideClientKey"] != nil } // GetUnknownProvideClientKey returns the unknown value for provideClientKey func (t *Person) GetUnknownProvideClientKey() (v interface{}) { return t.unknown_["provideClientKey"] } // SetUnknownProvideClientKey sets the unknown value of provideClientKey func (t *Person) SetUnknownProvideClientKey(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } t.unknown_["provideClientKey"] = i } // HasSignClientKey determines whether the call to GetSignClientKey is safe func (t *Person) HasSignClientKey() (ok bool) { return t.signClientKey != nil } // GetSignClientKey returns the value for signClientKey func (t *Person) GetSignClientKey() (v *url.URL) { return t.signClientKey } // SetSignClientKey sets the value of signClientKey func (t *Person) SetSignClientKey(v *url.URL) { t.signClientKey = v } // HasUnknownSignClientKey determines whether the call to GetUnknownSignClientKey is safe func (t *Person) HasUnknownSignClientKey() (ok bool) { return t.unknown_ != nil && t.unknown_["signClientKey"] != nil } // GetUnknownSignClientKey returns the unknown value for signClientKey func (t *Person) GetUnknownSignClientKey() (v interface{}) { return t.unknown_["signClientKey"] } // SetUnknownSignClientKey sets the unknown value of signClientKey func (t *Person) SetUnknownSignClientKey(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } t.unknown_["signClientKey"] = i } // HasSharedInbox determines whether the call to GetSharedInbox is safe func (t *Person) HasSharedInbox() (ok bool) { return t.sharedInbox != nil } // GetSharedInbox returns the value for sharedInbox func (t *Person) GetSharedInbox() (v *url.URL) { return t.sharedInbox } // SetSharedInbox sets the value of sharedInbox func (t *Person) SetSharedInbox(v *url.URL) { t.sharedInbox = v } // HasUnknownSharedInbox determines whether the call to GetUnknownSharedInbox is safe func (t *Person) HasUnknownSharedInbox() (ok bool) { return t.unknown_ != nil && t.unknown_["sharedInbox"] != nil } // GetUnknownSharedInbox returns the unknown value for sharedInbox func (t *Person) GetUnknownSharedInbox() (v interface{}) { return t.unknown_["sharedInbox"] } // SetUnknownSharedInbox sets the unknown value of sharedInbox func (t *Person) SetUnknownSharedInbox(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } t.unknown_["sharedInbox"] = i } // AddUnknown adds a raw extension to this object with the specified key func (t *Person) AddUnknown(k string, i interface{}) (this *Person) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } t.unknown_[k] = i return t } // HasUnknown returns true if there is an unknown object with the specified key func (t *Person) HasUnknown(k string) (b bool) { if t.unknown_ == nil { return false } _, ok := t.unknown_[k] return ok } // RemoveUnknown removes a raw extension from this object with the specified key func (t *Person) RemoveUnknown(k string) (this *Person) { delete(t.unknown_, k) return t } // Serialize turns this object into a map[string]interface{}. Note that the "type" property will automatically be populated with "Person" if not manually set by the caller func (t *Person) Serialize() (m map[string]interface{}, err error) { m = make(map[string]interface{}) for k, v := range t.unknown_ { m[k] = unknownValueSerialize(v) } var typeAlreadySet bool for _, k := range t.typeName { if ks, ok := k.(string); ok { if ks == "Person" { typeAlreadySet = true break } } } if !typeAlreadySet { t.typeName = append(t.typeName, "Person") } // Begin generation by generateFunctionalMultiTypeDefinition if t.altitude != nil { if v, err := serializeAltitudePersonIntermediateType(t.altitude); err == nil { m["altitude"] = v } else { return m, err } } // End generation by generateFunctionalMultiTypeDefinition // Begin generation by generateNonFunctionalMultiTypeDefinition if v, err := serializeSliceAttachmentPersonIntermediateType(t.attachment); err == nil && v != nil { if len(v) == 1 { m["attachment"] = v[0] } else { m["attachment"] = v } } else if err != nil { return m, err } // End generation by generateNonFunctionalMultiTypeDefinition // Begin generation by generateNonFunctionalMultiTypeDefinition if v, err := serializeSliceAttributedToPersonIntermediateType(t.attributedTo); err == nil && v != nil { if len(v) == 1 { m["attributedTo"] = v[0] } else { m["attributedTo"] = v } } else if err != nil { return m, err } // End generation by generateNonFunctionalMultiTypeDefinition // Begin generation by generateNonFunctionalMultiTypeDefinition if v, err := serializeSliceAudiencePersonIntermediateType(t.audience); err == nil && v != nil { if len(v) == 1 { m["audience"] = v[0] } else { m["audience"] = v } } else if err != nil { return m, err } // End generation by generateNonFunctionalMultiTypeDefinition // Begin generation by generateNonFunctionalMultiTypeDefinition if v, err := serializeSliceContentPersonIntermediateType(t.content); err == nil && v != nil { if len(v) == 1 { m["content"] = v[0] } else { m["content"] = v } } else if err != nil { return m, err } // End generation by generateNonFunctionalMultiTypeDefinition // Begin generation by generateNaturalLanguageMap if t.contentMap != nil && len(t.contentMap) >= 0 { m["contentMap"] = t.contentMap } // End generation by generateNaturalLanguageMap // Begin generation by generateNonFunctionalMultiTypeDefinition if v, err := serializeSliceContextPersonIntermediateType(t.context); err == nil && v != nil { if len(v) == 1 { m["context"] = v[0] } else { m["context"] = v } } else if err != nil { return m, err } // End generation by generateNonFunctionalMultiTypeDefinition // Begin generation by generateNonFunctionalMultiTypeDefinition if v, err := serializeSliceNamePersonIntermediateType(t.name); err == nil && v != nil { if len(v) == 1 { m["name"] = v[0] } else { m["name"] = v } } else if err != nil { return m, err } // End generation by generateNonFunctionalMultiTypeDefinition // Begin generation by generateNaturalLanguageMap if t.nameMap != nil && len(t.nameMap) >= 0 { m["nameMap"] = t.nameMap } // End generation by generateNaturalLanguageMap // Begin generation by generateFunctionalMultiTypeDefinition if t.endTime != nil { if v, err := serializeEndTimePersonIntermediateType(t.endTime); err == nil { m["endTime"] = v } else { return m, err } } // End generation by generateFunctionalMultiTypeDefinition // Begin generation by generateNonFunctionalMultiTypeDefinition if v, err := serializeSliceGeneratorPersonIntermediateType(t.generator); err == nil && v != nil { if len(v) == 1 { m["generator"] = v[0] } else { m["generator"] = v } } else if err != nil { return m, err } // End generation by generateNonFunctionalMultiTypeDefinition // Begin generation by generateNonFunctionalMultiTypeDefinition if v, err := serializeSliceIconPersonIntermediateType(t.icon); err == nil && v != nil { if len(v) == 1 { m["icon"] = v[0] } else { m["icon"] = v } } else if err != nil { return m, err } // End generation by generateNonFunctionalMultiTypeDefinition // Begin generation by RangeReference.Serialize for Value if t.id != nil { idSerializeFunc := func() (interface{}, error) { v := t.id tmp := anyURISerialize(v) return tmp, nil } idResult, err := idSerializeFunc() if err == nil { m["id"] = idResult } else { return m, err } } // End generation by RangeReference.Serialize for Value // Begin generation by generateNonFunctionalMultiTypeDefinition if v, err := serializeSliceImagePersonIntermediateType(t.image); err == nil && v != nil { if len(v) == 1 { m["image"] = v[0] } else { m["image"] = v } } else if err != nil { return m, err } // End generation by generateNonFunctionalMultiTypeDefinition // Begin generation by generateNonFunctionalMultiTypeDefinition if v, err := serializeSliceInReplyToPersonIntermediateType(t.inReplyTo); err == nil && v != nil { if len(v) == 1 { m["inReplyTo"] = v[0] } else { m["inReplyTo"] = v } } else if err != nil { return m, err } // End generation by generateNonFunctionalMultiTypeDefinition // Begin generation by generateNonFunctionalMultiTypeDefinition if v, err := serializeSliceLocationPersonIntermediateType(t.location); err == nil && v != nil { if len(v) == 1 { m["location"] = v[0] } else { m["location"] = v } } else if err != nil { return m, err } // End generation by generateNonFunctionalMultiTypeDefinition // Begin generation by generateNonFunctionalMultiTypeDefinition if v, err := serializeSlicePreviewPersonIntermediateType(t.preview); err == nil && v != nil { if len(v) == 1 { m["preview"] = v[0] } else { m["preview"] = v } } else if err != nil { return m, err } // End generation by generateNonFunctionalMultiTypeDefinition // Begin generation by generateFunctionalMultiTypeDefinition if t.published != nil { if v, err := serializePublishedPersonIntermediateType(t.published); err == nil { m["published"] = v } else { return m, err } } // End generation by generateFunctionalMultiTypeDefinition // Begin generation by generateFunctionalMultiTypeDefinition if t.replies != nil { if v, err := serializeRepliesPersonIntermediateType(t.replies); err == nil { m["replies"] = v } else { return m, err } } // End generation by generateFunctionalMultiTypeDefinition // Begin generation by generateFunctionalMultiTypeDefinition if t.startTime != nil { if v, err := serializeStartTimePersonIntermediateType(t.startTime); err == nil { m["startTime"] = v } else { return m, err } } // End generation by generateFunctionalMultiTypeDefinition // Begin generation by generateNonFunctionalMultiTypeDefinition if v, err := serializeSliceSummaryPersonIntermediateType(t.summary); err == nil && v != nil { if len(v) == 1 { m["summary"] = v[0] } else { m["summary"] = v } } else if err != nil { return m, err } // End generation by generateNonFunctionalMultiTypeDefinition // Begin generation by generateNaturalLanguageMap if t.summaryMap != nil && len(t.summaryMap) >= 0 { m["summaryMap"] = t.summaryMap } // End generation by generateNaturalLanguageMap // Begin generation by generateNonFunctionalMultiTypeDefinition if v, err := serializeSliceTagPersonIntermediateType(t.tag); err == nil && v != nil { if len(v) == 1 { m["tag"] = v[0] } else { m["tag"] = v } } else if err != nil { return m, err } // End generation by generateNonFunctionalMultiTypeDefinition // Begin generation by generateNonFunctionalAnyDefinition if t.typeName != nil { if len(t.typeName) == 1 { m["type"] = t.typeName[0] } else { m["type"] = t.typeName } } // End generation by generateNonFunctionalAnyDefinition // Begin generation by generateFunctionalMultiTypeDefinition if t.updated != nil { if v, err := serializeUpdatedPersonIntermediateType(t.updated); err == nil { m["updated"] = v } else { return m, err } } // End generation by generateFunctionalMultiTypeDefinition // Begin generation by generateNonFunctionalMultiTypeDefinition if v, err := serializeSliceUrlPersonIntermediateType(t.url); err == nil && v != nil { if len(v) == 1 { m["url"] = v[0] } else { m["url"] = v } } else if err != nil { return m, err } // End generation by generateNonFunctionalMultiTypeDefinition // Begin generation by generateNonFunctionalMultiTypeDefinition if v, err := serializeSliceToPersonIntermediateType(t.to); err == nil && v != nil { if len(v) == 1 { m["to"] = v[0] } else { m["to"] = v } } else if err != nil { return m, err } // End generation by generateNonFunctionalMultiTypeDefinition // Begin generation by generateNonFunctionalMultiTypeDefinition if v, err := serializeSliceBtoPersonIntermediateType(t.bto); err == nil && v != nil { if len(v) == 1 { m["bto"] = v[0] } else { m["bto"] = v } } else if err != nil { return m, err } // End generation by generateNonFunctionalMultiTypeDefinition // Begin generation by generateNonFunctionalMultiTypeDefinition if v, err := serializeSliceCcPersonIntermediateType(t.cc); err == nil && v != nil { if len(v) == 1 { m["cc"] = v[0] } else { m["cc"] = v } } else if err != nil { return m, err } // End generation by generateNonFunctionalMultiTypeDefinition // Begin generation by generateNonFunctionalMultiTypeDefinition if v, err := serializeSliceBccPersonIntermediateType(t.bcc); err == nil && v != nil { if len(v) == 1 { m["bcc"] = v[0] } else { m["bcc"] = v } } else if err != nil { return m, err } // End generation by generateNonFunctionalMultiTypeDefinition // Begin generation by generateFunctionalMultiTypeDefinition if t.mediaType != nil { if v, err := serializeMediaTypePersonIntermediateType(t.mediaType); err == nil { m["mediaType"] = v } else { return m, err } } // End generation by generateFunctionalMultiTypeDefinition // Begin generation by generateFunctionalMultiTypeDefinition if t.duration != nil { if v, err := serializeDurationPersonIntermediateType(t.duration); err == nil { m["duration"] = v } else { return m, err } } // End generation by generateFunctionalMultiTypeDefinition // Begin generation by generateFunctionalMultiTypeDefinition if t.source != nil { if v, err := serializeSourcePersonIntermediateType(t.source); err == nil { m["source"] = v } else { return m, err } } // End generation by generateFunctionalMultiTypeDefinition // Begin generation by generateFunctionalMultiTypeDefinition if t.inbox != nil { if v, err := serializeInboxPersonIntermediateType(t.inbox); err == nil { m["inbox"] = v } else { return m, err } } // End generation by generateFunctionalMultiTypeDefinition // Begin generation by generateFunctionalMultiTypeDefinition if t.outbox != nil { if v, err := serializeOutboxPersonIntermediateType(t.outbox); err == nil { m["outbox"] = v } else { return m, err } } // End generation by generateFunctionalMultiTypeDefinition // Begin generation by generateFunctionalMultiTypeDefinition if t.following != nil { if v, err := serializeFollowingPersonIntermediateType(t.following); err == nil { m["following"] = v } else { return m, err } } // End generation by generateFunctionalMultiTypeDefinition // Begin generation by generateFunctionalMultiTypeDefinition if t.followers != nil { if v, err := serializeFollowersPersonIntermediateType(t.followers); err == nil { m["followers"] = v } else { return m, err } } // End generation by generateFunctionalMultiTypeDefinition // Begin generation by generateFunctionalMultiTypeDefinition if t.liked != nil { if v, err := serializeLikedPersonIntermediateType(t.liked); err == nil { m["liked"] = v } else { return m, err } } // End generation by generateFunctionalMultiTypeDefinition // Begin generation by generateFunctionalMultiTypeDefinition if t.likes != nil { if v, err := serializeLikesPersonIntermediateType(t.likes); err == nil { m["likes"] = v } else { return m, err } } // End generation by generateFunctionalMultiTypeDefinition // Begin generation by RangeReference.Serialize for Value var streamsTemp []interface{} for _, v := range t.streams { tmp := anyURISerialize(v) streamsTemp = append(streamsTemp, tmp) } if streamsTemp != nil { if len(streamsTemp) == 1 { m["streams"] = streamsTemp[0] } else { m["streams"] = streamsTemp } } // End generation by RangeReference.Serialize for Value // Begin generation by generateFunctionalMultiTypeDefinition if t.preferredUsername != nil { if v, err := serializePreferredUsernamePersonIntermediateType(t.preferredUsername); err == nil { m["preferredUsername"] = v } else { return m, err } } // End generation by generateFunctionalMultiTypeDefinition // Begin generation by generateNaturalLanguageMap if t.preferredUsernameMap != nil && len(t.preferredUsernameMap) >= 0 { m["preferredUsernameMap"] = t.preferredUsernameMap } // End generation by generateNaturalLanguageMap // Begin generation by generateFunctionalMultiTypeDefinition if t.endpoints != nil { if v, err := serializeEndpointsPersonIntermediateType(t.endpoints); err == nil { m["endpoints"] = v } else { return m, err } } // End generation by generateFunctionalMultiTypeDefinition // Begin generation by RangeReference.Serialize for Value if t.proxyUrl != nil { proxyUrlSerializeFunc := func() (interface{}, error) { v := t.proxyUrl tmp := anyURISerialize(v) return tmp, nil } proxyUrlResult, err := proxyUrlSerializeFunc() if err == nil { m["proxyUrl"] = proxyUrlResult } else { return m, err } } // End generation by RangeReference.Serialize for Value // Begin generation by RangeReference.Serialize for Value if t.oauthAuthorizationEndpoint != nil { oauthAuthorizationEndpointSerializeFunc := func() (interface{}, error) { v := t.oauthAuthorizationEndpoint tmp := anyURISerialize(v) return tmp, nil } oauthAuthorizationEndpointResult, err := oauthAuthorizationEndpointSerializeFunc() if err == nil { m["oauthAuthorizationEndpoint"] = oauthAuthorizationEndpointResult } else { return m, err } } // End generation by RangeReference.Serialize for Value // Begin generation by RangeReference.Serialize for Value if t.oauthTokenEndpoint != nil { oauthTokenEndpointSerializeFunc := func() (interface{}, error) { v := t.oauthTokenEndpoint tmp := anyURISerialize(v) return tmp, nil } oauthTokenEndpointResult, err := oauthTokenEndpointSerializeFunc() if err == nil { m["oauthTokenEndpoint"] = oauthTokenEndpointResult } else { return m, err } } // End generation by RangeReference.Serialize for Value // Begin generation by RangeReference.Serialize for Value if t.provideClientKey != nil { provideClientKeySerializeFunc := func() (interface{}, error) { v := t.provideClientKey tmp := anyURISerialize(v) return tmp, nil } provideClientKeyResult, err := provideClientKeySerializeFunc() if err == nil { m["provideClientKey"] = provideClientKeyResult } else { return m, err } } // End generation by RangeReference.Serialize for Value // Begin generation by RangeReference.Serialize for Value if t.signClientKey != nil { signClientKeySerializeFunc := func() (interface{}, error) { v := t.signClientKey tmp := anyURISerialize(v) return tmp, nil } signClientKeyResult, err := signClientKeySerializeFunc() if err == nil { m["signClientKey"] = signClientKeyResult } else { return m, err } } // End generation by RangeReference.Serialize for Value // Begin generation by RangeReference.Serialize for Value if t.sharedInbox != nil { sharedInboxSerializeFunc := func() (interface{}, error) { v := t.sharedInbox tmp := anyURISerialize(v) return tmp, nil } sharedInboxResult, err := sharedInboxSerializeFunc() if err == nil { m["sharedInbox"] = sharedInboxResult } else { return m, err } } // End generation by RangeReference.Serialize for Value return } // Deserialize populates this object from a map[string]interface{} func (t *Person) Deserialize(m map[string]interface{}) (err error) { for k, v := range m { handled := false if !handled { // Begin generation by generateFunctionalMultiTypeDefinition if k == "altitude" { t.altitude, err = deserializeAltitudePersonIntermediateType(v) if err != nil { return err } handled = true } // End generation by generateFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateNonFunctionalMultiTypeDefinition if k == "attachment" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializeAttachmentPersonIntermediateType(tmpMap) if err != nil { return err } t.attachment = []*attachmentPersonIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.attachment, err = deserializeSliceAttachmentPersonIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &attachmentPersonIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.attachment = []*attachmentPersonIntermediateType{tmp} handled = true } } // End generation by generateNonFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateNonFunctionalMultiTypeDefinition if k == "attributedTo" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializeAttributedToPersonIntermediateType(tmpMap) if err != nil { return err } t.attributedTo = []*attributedToPersonIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.attributedTo, err = deserializeSliceAttributedToPersonIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &attributedToPersonIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.attributedTo = []*attributedToPersonIntermediateType{tmp} handled = true } } // End generation by generateNonFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateNonFunctionalMultiTypeDefinition if k == "audience" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializeAudiencePersonIntermediateType(tmpMap) if err != nil { return err } t.audience = []*audiencePersonIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.audience, err = deserializeSliceAudiencePersonIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &audiencePersonIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.audience = []*audiencePersonIntermediateType{tmp} handled = true } } // End generation by generateNonFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateNonFunctionalMultiTypeDefinition if k == "content" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializeContentPersonIntermediateType(tmpMap) if err != nil { return err } t.content = []*contentPersonIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.content, err = deserializeSliceContentPersonIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &contentPersonIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.content = []*contentPersonIntermediateType{tmp} handled = true } } // End generation by generateNonFunctionalMultiTypeDefinition // Begin generation by generateNaturalLanguageMap if k == "contentMap" { if vMap, ok := v.(map[string]interface{}); ok { val := make(map[string]string) for k, iVal := range vMap { if sVal, ok := iVal.(string); ok { val[k] = sVal } } t.contentMap = val handled = true } } // End generation by generateNaturalLanguageMap } if !handled { // Begin generation by generateNonFunctionalMultiTypeDefinition if k == "context" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializeContextPersonIntermediateType(tmpMap) if err != nil { return err } t.context = []*contextPersonIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.context, err = deserializeSliceContextPersonIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &contextPersonIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.context = []*contextPersonIntermediateType{tmp} handled = true } } // End generation by generateNonFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateNonFunctionalMultiTypeDefinition if k == "name" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializeNamePersonIntermediateType(tmpMap) if err != nil { return err } t.name = []*namePersonIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.name, err = deserializeSliceNamePersonIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &namePersonIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.name = []*namePersonIntermediateType{tmp} handled = true } } // End generation by generateNonFunctionalMultiTypeDefinition // Begin generation by generateNaturalLanguageMap if k == "nameMap" { if vMap, ok := v.(map[string]interface{}); ok { val := make(map[string]string) for k, iVal := range vMap { if sVal, ok := iVal.(string); ok { val[k] = sVal } } t.nameMap = val handled = true } } // End generation by generateNaturalLanguageMap } if !handled { // Begin generation by generateFunctionalMultiTypeDefinition if k == "endTime" { t.endTime, err = deserializeEndTimePersonIntermediateType(v) if err != nil { return err } handled = true } // End generation by generateFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateNonFunctionalMultiTypeDefinition if k == "generator" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializeGeneratorPersonIntermediateType(tmpMap) if err != nil { return err } t.generator = []*generatorPersonIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.generator, err = deserializeSliceGeneratorPersonIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &generatorPersonIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.generator = []*generatorPersonIntermediateType{tmp} handled = true } } // End generation by generateNonFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateNonFunctionalMultiTypeDefinition if k == "icon" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializeIconPersonIntermediateType(tmpMap) if err != nil { return err } t.icon = []*iconPersonIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.icon, err = deserializeSliceIconPersonIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &iconPersonIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.icon = []*iconPersonIntermediateType{tmp} handled = true } } // End generation by generateNonFunctionalMultiTypeDefinition } if !handled { // Begin generation by RangeReference.Deserialize for Value if k == "id" { if v, ok := v.(interface{}); ok { tmp, err := anyURIDeserialize(v) if err != nil { return err } t.id = tmp handled = true } } // End generation by RangeReference.Deserialize for Value } if !handled { // Begin generation by generateNonFunctionalMultiTypeDefinition if k == "image" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializeImagePersonIntermediateType(tmpMap) if err != nil { return err } t.image = []*imagePersonIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.image, err = deserializeSliceImagePersonIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &imagePersonIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.image = []*imagePersonIntermediateType{tmp} handled = true } } // End generation by generateNonFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateNonFunctionalMultiTypeDefinition if k == "inReplyTo" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializeInReplyToPersonIntermediateType(tmpMap) if err != nil { return err } t.inReplyTo = []*inReplyToPersonIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.inReplyTo, err = deserializeSliceInReplyToPersonIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &inReplyToPersonIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.inReplyTo = []*inReplyToPersonIntermediateType{tmp} handled = true } } // End generation by generateNonFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateNonFunctionalMultiTypeDefinition if k == "location" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializeLocationPersonIntermediateType(tmpMap) if err != nil { return err } t.location = []*locationPersonIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.location, err = deserializeSliceLocationPersonIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &locationPersonIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.location = []*locationPersonIntermediateType{tmp} handled = true } } // End generation by generateNonFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateNonFunctionalMultiTypeDefinition if k == "preview" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializePreviewPersonIntermediateType(tmpMap) if err != nil { return err } t.preview = []*previewPersonIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.preview, err = deserializeSlicePreviewPersonIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &previewPersonIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.preview = []*previewPersonIntermediateType{tmp} handled = true } } // End generation by generateNonFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateFunctionalMultiTypeDefinition if k == "published" { t.published, err = deserializePublishedPersonIntermediateType(v) if err != nil { return err } handled = true } // End generation by generateFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateFunctionalMultiTypeDefinition if k == "replies" { t.replies, err = deserializeRepliesPersonIntermediateType(v) if err != nil { return err } handled = true } // End generation by generateFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateFunctionalMultiTypeDefinition if k == "startTime" { t.startTime, err = deserializeStartTimePersonIntermediateType(v) if err != nil { return err } handled = true } // End generation by generateFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateNonFunctionalMultiTypeDefinition if k == "summary" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializeSummaryPersonIntermediateType(tmpMap) if err != nil { return err } t.summary = []*summaryPersonIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.summary, err = deserializeSliceSummaryPersonIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &summaryPersonIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.summary = []*summaryPersonIntermediateType{tmp} handled = true } } // End generation by generateNonFunctionalMultiTypeDefinition // Begin generation by generateNaturalLanguageMap if k == "summaryMap" { if vMap, ok := v.(map[string]interface{}); ok { val := make(map[string]string) for k, iVal := range vMap { if sVal, ok := iVal.(string); ok { val[k] = sVal } } t.summaryMap = val handled = true } } // End generation by generateNaturalLanguageMap } if !handled { // Begin generation by generateNonFunctionalMultiTypeDefinition if k == "tag" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializeTagPersonIntermediateType(tmpMap) if err != nil { return err } t.tag = []*tagPersonIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.tag, err = deserializeSliceTagPersonIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &tagPersonIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.tag = []*tagPersonIntermediateType{tmp} handled = true } } // End generation by generateNonFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateNonFunctionalAnyDefinition if k == "type" { if tmpTypeSlice, ok := v.([]interface{}); ok { t.typeName = tmpTypeSlice handled = true } else { t.typeName = []interface{}{v} handled = true } } // End generation by generateNonFunctionalAnyDefinition } if !handled { // Begin generation by generateFunctionalMultiTypeDefinition if k == "updated" { t.updated, err = deserializeUpdatedPersonIntermediateType(v) if err != nil { return err } handled = true } // End generation by generateFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateNonFunctionalMultiTypeDefinition if k == "url" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializeUrlPersonIntermediateType(tmpMap) if err != nil { return err } t.url = []*urlPersonIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.url, err = deserializeSliceUrlPersonIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &urlPersonIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.url = []*urlPersonIntermediateType{tmp} handled = true } } // End generation by generateNonFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateNonFunctionalMultiTypeDefinition if k == "to" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializeToPersonIntermediateType(tmpMap) if err != nil { return err } t.to = []*toPersonIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.to, err = deserializeSliceToPersonIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &toPersonIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.to = []*toPersonIntermediateType{tmp} handled = true } } // End generation by generateNonFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateNonFunctionalMultiTypeDefinition if k == "bto" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializeBtoPersonIntermediateType(tmpMap) if err != nil { return err } t.bto = []*btoPersonIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.bto, err = deserializeSliceBtoPersonIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &btoPersonIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.bto = []*btoPersonIntermediateType{tmp} handled = true } } // End generation by generateNonFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateNonFunctionalMultiTypeDefinition if k == "cc" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializeCcPersonIntermediateType(tmpMap) if err != nil { return err } t.cc = []*ccPersonIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.cc, err = deserializeSliceCcPersonIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &ccPersonIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.cc = []*ccPersonIntermediateType{tmp} handled = true } } // End generation by generateNonFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateNonFunctionalMultiTypeDefinition if k == "bcc" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializeBccPersonIntermediateType(tmpMap) if err != nil { return err } t.bcc = []*bccPersonIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.bcc, err = deserializeSliceBccPersonIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &bccPersonIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.bcc = []*bccPersonIntermediateType{tmp} handled = true } } // End generation by generateNonFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateFunctionalMultiTypeDefinition if k == "mediaType" { t.mediaType, err = deserializeMediaTypePersonIntermediateType(v) if err != nil { return err } handled = true } // End generation by generateFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateFunctionalMultiTypeDefinition if k == "duration" { t.duration, err = deserializeDurationPersonIntermediateType(v) if err != nil { return err } handled = true } // End generation by generateFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateFunctionalMultiTypeDefinition if k == "source" { t.source, err = deserializeSourcePersonIntermediateType(v) if err != nil { return err } handled = true } // End generation by generateFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateFunctionalMultiTypeDefinition if k == "inbox" { t.inbox, err = deserializeInboxPersonIntermediateType(v) if err != nil { return err } handled = true } // End generation by generateFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateFunctionalMultiTypeDefinition if k == "outbox" { t.outbox, err = deserializeOutboxPersonIntermediateType(v) if err != nil { return err } handled = true } // End generation by generateFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateFunctionalMultiTypeDefinition if k == "following" { t.following, err = deserializeFollowingPersonIntermediateType(v) if err != nil { return err } handled = true } // End generation by generateFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateFunctionalMultiTypeDefinition if k == "followers" { t.followers, err = deserializeFollowersPersonIntermediateType(v) if err != nil { return err } handled = true } // End generation by generateFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateFunctionalMultiTypeDefinition if k == "liked" { t.liked, err = deserializeLikedPersonIntermediateType(v) if err != nil { return err } handled = true } // End generation by generateFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateFunctionalMultiTypeDefinition if k == "likes" { t.likes, err = deserializeLikesPersonIntermediateType(v) if err != nil { return err } handled = true } // End generation by generateFunctionalMultiTypeDefinition } if !handled { // Begin generation by RangeReference.Deserialize for Value if k == "streams" { if tmpSlice, ok := v.([]interface{}); ok { for _, tmpElem := range tmpSlice { if v, ok := tmpElem.(interface{}); ok { tmp, err := anyURIDeserialize(v) if err != nil { return err } t.streams = append(t.streams, tmp) handled = true } } } else if v, ok := v.(interface{}); ok { tmp, err := anyURIDeserialize(v) if err != nil { return err } t.streams = append(t.streams, tmp) handled = true } } // End generation by RangeReference.Deserialize for Value } if !handled { // Begin generation by generateFunctionalMultiTypeDefinition if k == "preferredUsername" { t.preferredUsername, err = deserializePreferredUsernamePersonIntermediateType(v) if err != nil { return err } handled = true } // End generation by generateFunctionalMultiTypeDefinition // Begin generation by generateNaturalLanguageMap if k == "preferredUsernameMap" { if vMap, ok := v.(map[string]interface{}); ok { val := make(map[string]string) for k, iVal := range vMap { if sVal, ok := iVal.(string); ok { val[k] = sVal } } t.preferredUsernameMap = val handled = true } } // End generation by generateNaturalLanguageMap } if !handled { // Begin generation by generateFunctionalMultiTypeDefinition if k == "endpoints" { t.endpoints, err = deserializeEndpointsPersonIntermediateType(v) if err != nil { return err } handled = true } // End generation by generateFunctionalMultiTypeDefinition } if !handled { // Begin generation by RangeReference.Deserialize for Value if k == "proxyUrl" { if v, ok := v.(interface{}); ok { tmp, err := anyURIDeserialize(v) if err != nil { return err } t.proxyUrl = tmp handled = true } } // End generation by RangeReference.Deserialize for Value } if !handled { // Begin generation by RangeReference.Deserialize for Value if k == "oauthAuthorizationEndpoint" { if v, ok := v.(interface{}); ok { tmp, err := anyURIDeserialize(v) if err != nil { return err } t.oauthAuthorizationEndpoint = tmp handled = true } } // End generation by RangeReference.Deserialize for Value } if !handled { // Begin generation by RangeReference.Deserialize for Value if k == "oauthTokenEndpoint" { if v, ok := v.(interface{}); ok { tmp, err := anyURIDeserialize(v) if err != nil { return err } t.oauthTokenEndpoint = tmp handled = true } } // End generation by RangeReference.Deserialize for Value } if !handled { // Begin generation by RangeReference.Deserialize for Value if k == "provideClientKey" { if v, ok := v.(interface{}); ok { tmp, err := anyURIDeserialize(v) if err != nil { return err } t.provideClientKey = tmp handled = true } } // End generation by RangeReference.Deserialize for Value } if !handled { // Begin generation by RangeReference.Deserialize for Value if k == "signClientKey" { if v, ok := v.(interface{}); ok { tmp, err := anyURIDeserialize(v) if err != nil { return err } t.signClientKey = tmp handled = true } } // End generation by RangeReference.Deserialize for Value } if !handled { // Begin generation by RangeReference.Deserialize for Value if k == "sharedInbox" { if v, ok := v.(interface{}); ok { tmp, err := anyURIDeserialize(v) if err != nil { return err } t.sharedInbox = tmp handled = true } } // End generation by RangeReference.Deserialize for Value } if !handled && k != "@context" { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } t.unknown_[k] = unknownValueDeserialize(v) } } return } // altitudePersonIntermediateType will only have one of its values set at most type altitudePersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible *float64 type for altitude property float *float64 // Stores possible *url.URL type for altitude property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *altitudePersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { err = fmt.Errorf("Given map but nothing to do with it for this type: %v", m) } else if i != nil { if !matched { t.float, err = floatDeserialize(i) if err != nil { t.float = nil } else { matched = true } } if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *altitudePersonIntermediateType) Serialize() (i interface{}, err error) { if t.float != nil { i = floatSerialize(*t.float) return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // attachmentPersonIntermediateType will only have one of its values set at most type attachmentPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible ObjectType type for attachment property Object ObjectType // Stores possible LinkType type for attachment property Link LinkType // Stores possible *url.URL type for attachment property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *attachmentPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.Object, ok = resolveObject(kind).(ObjectType); t.Object != nil && ok { err = t.Object.Deserialize(m) matched = true break } } } if !matched { for _, kind := range types { if t.Link, ok = resolveLink(kind).(LinkType); t.Link != nil && ok { err = t.Link.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *attachmentPersonIntermediateType) Serialize() (i interface{}, err error) { if t.Object != nil { i, err = t.Object.Serialize() return } if t.Link != nil { i, err = t.Link.Serialize() return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // attributedToPersonIntermediateType will only have one of its values set at most type attributedToPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible ObjectType type for attributedTo property Object ObjectType // Stores possible LinkType type for attributedTo property Link LinkType // Stores possible *url.URL type for attributedTo property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *attributedToPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.Object, ok = resolveObject(kind).(ObjectType); t.Object != nil && ok { err = t.Object.Deserialize(m) matched = true break } } } if !matched { for _, kind := range types { if t.Link, ok = resolveLink(kind).(LinkType); t.Link != nil && ok { err = t.Link.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *attributedToPersonIntermediateType) Serialize() (i interface{}, err error) { if t.Object != nil { i, err = t.Object.Serialize() return } if t.Link != nil { i, err = t.Link.Serialize() return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // audiencePersonIntermediateType will only have one of its values set at most type audiencePersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible ObjectType type for audience property Object ObjectType // Stores possible LinkType type for audience property Link LinkType // Stores possible *url.URL type for audience property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *audiencePersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.Object, ok = resolveObject(kind).(ObjectType); t.Object != nil && ok { err = t.Object.Deserialize(m) matched = true break } } } if !matched { for _, kind := range types { if t.Link, ok = resolveLink(kind).(LinkType); t.Link != nil && ok { err = t.Link.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *audiencePersonIntermediateType) Serialize() (i interface{}, err error) { if t.Object != nil { i, err = t.Object.Serialize() return } if t.Link != nil { i, err = t.Link.Serialize() return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // contentPersonIntermediateType will only have one of its values set at most type contentPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible *string type for content property stringName *string // Stores possible *string type for content property langString *string // Stores possible *url.URL type for content property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *contentPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { err = fmt.Errorf("Given map but nothing to do with it for this type: %v", m) } else if i != nil { if !matched { t.stringName, err = stringDeserialize(i) if err != nil { t.stringName = nil } else { matched = true } } if !matched { t.langString, err = langStringDeserialize(i) if err != nil { t.langString = nil } else { matched = true } } if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *contentPersonIntermediateType) Serialize() (i interface{}, err error) { if t.stringName != nil { i = stringSerialize(*t.stringName) return } if t.langString != nil { i = langStringSerialize(*t.langString) return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // contextPersonIntermediateType will only have one of its values set at most type contextPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible ObjectType type for context property Object ObjectType // Stores possible LinkType type for context property Link LinkType // Stores possible *url.URL type for context property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *contextPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.Object, ok = resolveObject(kind).(ObjectType); t.Object != nil && ok { err = t.Object.Deserialize(m) matched = true break } } } if !matched { for _, kind := range types { if t.Link, ok = resolveLink(kind).(LinkType); t.Link != nil && ok { err = t.Link.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *contextPersonIntermediateType) Serialize() (i interface{}, err error) { if t.Object != nil { i, err = t.Object.Serialize() return } if t.Link != nil { i, err = t.Link.Serialize() return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // namePersonIntermediateType will only have one of its values set at most type namePersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible *string type for name property stringName *string // Stores possible *string type for name property langString *string // Stores possible *url.URL type for name property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *namePersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { err = fmt.Errorf("Given map but nothing to do with it for this type: %v", m) } else if i != nil { if !matched { t.stringName, err = stringDeserialize(i) if err != nil { t.stringName = nil } else { matched = true } } if !matched { t.langString, err = langStringDeserialize(i) if err != nil { t.langString = nil } else { matched = true } } if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *namePersonIntermediateType) Serialize() (i interface{}, err error) { if t.stringName != nil { i = stringSerialize(*t.stringName) return } if t.langString != nil { i = langStringSerialize(*t.langString) return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // endTimePersonIntermediateType will only have one of its values set at most type endTimePersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible *time.Time type for endTime property dateTime *time.Time // Stores possible *url.URL type for endTime property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *endTimePersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { err = fmt.Errorf("Given map but nothing to do with it for this type: %v", m) } else if i != nil { if !matched { t.dateTime, err = dateTimeDeserialize(i) if err != nil { t.dateTime = nil } else { matched = true } } if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *endTimePersonIntermediateType) Serialize() (i interface{}, err error) { if t.dateTime != nil { i = dateTimeSerialize(*t.dateTime) return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // generatorPersonIntermediateType will only have one of its values set at most type generatorPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible ObjectType type for generator property Object ObjectType // Stores possible LinkType type for generator property Link LinkType // Stores possible *url.URL type for generator property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *generatorPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.Object, ok = resolveObject(kind).(ObjectType); t.Object != nil && ok { err = t.Object.Deserialize(m) matched = true break } } } if !matched { for _, kind := range types { if t.Link, ok = resolveLink(kind).(LinkType); t.Link != nil && ok { err = t.Link.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *generatorPersonIntermediateType) Serialize() (i interface{}, err error) { if t.Object != nil { i, err = t.Object.Serialize() return } if t.Link != nil { i, err = t.Link.Serialize() return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // iconPersonIntermediateType will only have one of its values set at most type iconPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible ImageType type for icon property Image ImageType // Stores possible LinkType type for icon property Link LinkType // Stores possible *url.URL type for icon property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *iconPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.Image, ok = resolveObject(kind).(ImageType); t.Image != nil && ok { err = t.Image.Deserialize(m) matched = true break } } } if !matched { for _, kind := range types { if t.Link, ok = resolveLink(kind).(LinkType); t.Link != nil && ok { err = t.Link.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *iconPersonIntermediateType) Serialize() (i interface{}, err error) { if t.Image != nil { i, err = t.Image.Serialize() return } if t.Link != nil { i, err = t.Link.Serialize() return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // imagePersonIntermediateType will only have one of its values set at most type imagePersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible ImageType type for image property Image ImageType // Stores possible LinkType type for image property Link LinkType // Stores possible *url.URL type for image property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *imagePersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.Image, ok = resolveObject(kind).(ImageType); t.Image != nil && ok { err = t.Image.Deserialize(m) matched = true break } } } if !matched { for _, kind := range types { if t.Link, ok = resolveLink(kind).(LinkType); t.Link != nil && ok { err = t.Link.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *imagePersonIntermediateType) Serialize() (i interface{}, err error) { if t.Image != nil { i, err = t.Image.Serialize() return } if t.Link != nil { i, err = t.Link.Serialize() return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // inReplyToPersonIntermediateType will only have one of its values set at most type inReplyToPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible ObjectType type for inReplyTo property Object ObjectType // Stores possible LinkType type for inReplyTo property Link LinkType // Stores possible *url.URL type for inReplyTo property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *inReplyToPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.Object, ok = resolveObject(kind).(ObjectType); t.Object != nil && ok { err = t.Object.Deserialize(m) matched = true break } } } if !matched { for _, kind := range types { if t.Link, ok = resolveLink(kind).(LinkType); t.Link != nil && ok { err = t.Link.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *inReplyToPersonIntermediateType) Serialize() (i interface{}, err error) { if t.Object != nil { i, err = t.Object.Serialize() return } if t.Link != nil { i, err = t.Link.Serialize() return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // locationPersonIntermediateType will only have one of its values set at most type locationPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible ObjectType type for location property Object ObjectType // Stores possible LinkType type for location property Link LinkType // Stores possible *url.URL type for location property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *locationPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.Object, ok = resolveObject(kind).(ObjectType); t.Object != nil && ok { err = t.Object.Deserialize(m) matched = true break } } } if !matched { for _, kind := range types { if t.Link, ok = resolveLink(kind).(LinkType); t.Link != nil && ok { err = t.Link.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *locationPersonIntermediateType) Serialize() (i interface{}, err error) { if t.Object != nil { i, err = t.Object.Serialize() return } if t.Link != nil { i, err = t.Link.Serialize() return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // previewPersonIntermediateType will only have one of its values set at most type previewPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible ObjectType type for preview property Object ObjectType // Stores possible LinkType type for preview property Link LinkType // Stores possible *url.URL type for preview property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *previewPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.Object, ok = resolveObject(kind).(ObjectType); t.Object != nil && ok { err = t.Object.Deserialize(m) matched = true break } } } if !matched { for _, kind := range types { if t.Link, ok = resolveLink(kind).(LinkType); t.Link != nil && ok { err = t.Link.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *previewPersonIntermediateType) Serialize() (i interface{}, err error) { if t.Object != nil { i, err = t.Object.Serialize() return } if t.Link != nil { i, err = t.Link.Serialize() return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // publishedPersonIntermediateType will only have one of its values set at most type publishedPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible *time.Time type for published property dateTime *time.Time // Stores possible *url.URL type for published property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *publishedPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { err = fmt.Errorf("Given map but nothing to do with it for this type: %v", m) } else if i != nil { if !matched { t.dateTime, err = dateTimeDeserialize(i) if err != nil { t.dateTime = nil } else { matched = true } } if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *publishedPersonIntermediateType) Serialize() (i interface{}, err error) { if t.dateTime != nil { i = dateTimeSerialize(*t.dateTime) return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // repliesPersonIntermediateType will only have one of its values set at most type repliesPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible CollectionType type for replies property Collection CollectionType // Stores possible *url.URL type for replies property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *repliesPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.Collection, ok = resolveObject(kind).(CollectionType); t.Collection != nil && ok { err = t.Collection.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *repliesPersonIntermediateType) Serialize() (i interface{}, err error) { if t.Collection != nil { i, err = t.Collection.Serialize() return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // startTimePersonIntermediateType will only have one of its values set at most type startTimePersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible *time.Time type for startTime property dateTime *time.Time // Stores possible *url.URL type for startTime property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *startTimePersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { err = fmt.Errorf("Given map but nothing to do with it for this type: %v", m) } else if i != nil { if !matched { t.dateTime, err = dateTimeDeserialize(i) if err != nil { t.dateTime = nil } else { matched = true } } if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *startTimePersonIntermediateType) Serialize() (i interface{}, err error) { if t.dateTime != nil { i = dateTimeSerialize(*t.dateTime) return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // summaryPersonIntermediateType will only have one of its values set at most type summaryPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible *string type for summary property stringName *string // Stores possible *string type for summary property langString *string // Stores possible *url.URL type for summary property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *summaryPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { err = fmt.Errorf("Given map but nothing to do with it for this type: %v", m) } else if i != nil { if !matched { t.stringName, err = stringDeserialize(i) if err != nil { t.stringName = nil } else { matched = true } } if !matched { t.langString, err = langStringDeserialize(i) if err != nil { t.langString = nil } else { matched = true } } if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *summaryPersonIntermediateType) Serialize() (i interface{}, err error) { if t.stringName != nil { i = stringSerialize(*t.stringName) return } if t.langString != nil { i = langStringSerialize(*t.langString) return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // tagPersonIntermediateType will only have one of its values set at most type tagPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible ObjectType type for tag property Object ObjectType // Stores possible LinkType type for tag property Link LinkType // Stores possible *url.URL type for tag property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *tagPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.Object, ok = resolveObject(kind).(ObjectType); t.Object != nil && ok { err = t.Object.Deserialize(m) matched = true break } } } if !matched { for _, kind := range types { if t.Link, ok = resolveLink(kind).(LinkType); t.Link != nil && ok { err = t.Link.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *tagPersonIntermediateType) Serialize() (i interface{}, err error) { if t.Object != nil { i, err = t.Object.Serialize() return } if t.Link != nil { i, err = t.Link.Serialize() return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // updatedPersonIntermediateType will only have one of its values set at most type updatedPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible *time.Time type for updated property dateTime *time.Time // Stores possible *url.URL type for updated property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *updatedPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { err = fmt.Errorf("Given map but nothing to do with it for this type: %v", m) } else if i != nil { if !matched { t.dateTime, err = dateTimeDeserialize(i) if err != nil { t.dateTime = nil } else { matched = true } } if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *updatedPersonIntermediateType) Serialize() (i interface{}, err error) { if t.dateTime != nil { i = dateTimeSerialize(*t.dateTime) return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // urlPersonIntermediateType will only have one of its values set at most type urlPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible *url.URL type for url property anyURI *url.URL // Stores possible LinkType type for url property Link LinkType } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *urlPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.Link, ok = resolveLink(kind).(LinkType); t.Link != nil && ok { err = t.Link.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.anyURI, err = anyURIDeserialize(i) if err != nil { t.anyURI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *urlPersonIntermediateType) Serialize() (i interface{}, err error) { if t.anyURI != nil { i = anyURISerialize(t.anyURI) return } if t.Link != nil { i, err = t.Link.Serialize() return } i = unknownValueSerialize(t.unknown_) return } // toPersonIntermediateType will only have one of its values set at most type toPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible ObjectType type for to property Object ObjectType // Stores possible LinkType type for to property Link LinkType // Stores possible *url.URL type for to property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *toPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.Object, ok = resolveObject(kind).(ObjectType); t.Object != nil && ok { err = t.Object.Deserialize(m) matched = true break } } } if !matched { for _, kind := range types { if t.Link, ok = resolveLink(kind).(LinkType); t.Link != nil && ok { err = t.Link.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *toPersonIntermediateType) Serialize() (i interface{}, err error) { if t.Object != nil { i, err = t.Object.Serialize() return } if t.Link != nil { i, err = t.Link.Serialize() return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // btoPersonIntermediateType will only have one of its values set at most type btoPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible ObjectType type for bto property Object ObjectType // Stores possible LinkType type for bto property Link LinkType // Stores possible *url.URL type for bto property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *btoPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.Object, ok = resolveObject(kind).(ObjectType); t.Object != nil && ok { err = t.Object.Deserialize(m) matched = true break } } } if !matched { for _, kind := range types { if t.Link, ok = resolveLink(kind).(LinkType); t.Link != nil && ok { err = t.Link.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *btoPersonIntermediateType) Serialize() (i interface{}, err error) { if t.Object != nil { i, err = t.Object.Serialize() return } if t.Link != nil { i, err = t.Link.Serialize() return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // ccPersonIntermediateType will only have one of its values set at most type ccPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible ObjectType type for cc property Object ObjectType // Stores possible LinkType type for cc property Link LinkType // Stores possible *url.URL type for cc property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *ccPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.Object, ok = resolveObject(kind).(ObjectType); t.Object != nil && ok { err = t.Object.Deserialize(m) matched = true break } } } if !matched { for _, kind := range types { if t.Link, ok = resolveLink(kind).(LinkType); t.Link != nil && ok { err = t.Link.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *ccPersonIntermediateType) Serialize() (i interface{}, err error) { if t.Object != nil { i, err = t.Object.Serialize() return } if t.Link != nil { i, err = t.Link.Serialize() return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // bccPersonIntermediateType will only have one of its values set at most type bccPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible ObjectType type for bcc property Object ObjectType // Stores possible LinkType type for bcc property Link LinkType // Stores possible *url.URL type for bcc property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *bccPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.Object, ok = resolveObject(kind).(ObjectType); t.Object != nil && ok { err = t.Object.Deserialize(m) matched = true break } } } if !matched { for _, kind := range types { if t.Link, ok = resolveLink(kind).(LinkType); t.Link != nil && ok { err = t.Link.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *bccPersonIntermediateType) Serialize() (i interface{}, err error) { if t.Object != nil { i, err = t.Object.Serialize() return } if t.Link != nil { i, err = t.Link.Serialize() return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // mediaTypePersonIntermediateType will only have one of its values set at most type mediaTypePersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible *string type for mediaType property mimeMediaTypeValue *string // Stores possible *url.URL type for mediaType property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *mediaTypePersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { err = fmt.Errorf("Given map but nothing to do with it for this type: %v", m) } else if i != nil { if !matched { t.mimeMediaTypeValue, err = mimeMediaTypeValueDeserialize(i) if err != nil { t.mimeMediaTypeValue = nil } else { matched = true } } if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *mediaTypePersonIntermediateType) Serialize() (i interface{}, err error) { if t.mimeMediaTypeValue != nil { i = mimeMediaTypeValueSerialize(*t.mimeMediaTypeValue) return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // durationPersonIntermediateType will only have one of its values set at most type durationPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible *time.Duration type for duration property duration *time.Duration // Stores possible *url.URL type for duration property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *durationPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { err = fmt.Errorf("Given map but nothing to do with it for this type: %v", m) } else if i != nil { if !matched { t.duration, err = durationDeserialize(i) if err != nil { t.duration = nil } else { matched = true } } if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *durationPersonIntermediateType) Serialize() (i interface{}, err error) { if t.duration != nil { i = durationSerialize(*t.duration) return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // sourcePersonIntermediateType will only have one of its values set at most type sourcePersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible ObjectType type for source property Object ObjectType // Stores possible *url.URL type for source property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *sourcePersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.Object, ok = resolveObject(kind).(ObjectType); t.Object != nil && ok { err = t.Object.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *sourcePersonIntermediateType) Serialize() (i interface{}, err error) { if t.Object != nil { i, err = t.Object.Serialize() return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // inboxPersonIntermediateType will only have one of its values set at most type inboxPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible OrderedCollectionType type for inbox property OrderedCollection OrderedCollectionType // Stores possible *url.URL type for inbox property anyURI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *inboxPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.OrderedCollection, ok = resolveObject(kind).(OrderedCollectionType); t.OrderedCollection != nil && ok { err = t.OrderedCollection.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.anyURI, err = anyURIDeserialize(i) if err != nil { t.anyURI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *inboxPersonIntermediateType) Serialize() (i interface{}, err error) { if t.OrderedCollection != nil { i, err = t.OrderedCollection.Serialize() return } if t.anyURI != nil { i = anyURISerialize(t.anyURI) return } i = unknownValueSerialize(t.unknown_) return } // outboxPersonIntermediateType will only have one of its values set at most type outboxPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible OrderedCollectionType type for outbox property OrderedCollection OrderedCollectionType // Stores possible *url.URL type for outbox property anyURI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *outboxPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.OrderedCollection, ok = resolveObject(kind).(OrderedCollectionType); t.OrderedCollection != nil && ok { err = t.OrderedCollection.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.anyURI, err = anyURIDeserialize(i) if err != nil { t.anyURI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *outboxPersonIntermediateType) Serialize() (i interface{}, err error) { if t.OrderedCollection != nil { i, err = t.OrderedCollection.Serialize() return } if t.anyURI != nil { i = anyURISerialize(t.anyURI) return } i = unknownValueSerialize(t.unknown_) return } // followingPersonIntermediateType will only have one of its values set at most type followingPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible CollectionType type for following property Collection CollectionType // Stores possible OrderedCollectionType type for following property OrderedCollection OrderedCollectionType // Stores possible *url.URL type for following property anyURI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *followingPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.Collection, ok = resolveObject(kind).(CollectionType); t.Collection != nil && ok { err = t.Collection.Deserialize(m) matched = true break } } } if !matched { for _, kind := range types { if t.OrderedCollection, ok = resolveObject(kind).(OrderedCollectionType); t.OrderedCollection != nil && ok { err = t.OrderedCollection.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.anyURI, err = anyURIDeserialize(i) if err != nil { t.anyURI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *followingPersonIntermediateType) Serialize() (i interface{}, err error) { if t.Collection != nil { i, err = t.Collection.Serialize() return } if t.OrderedCollection != nil { i, err = t.OrderedCollection.Serialize() return } if t.anyURI != nil { i = anyURISerialize(t.anyURI) return } i = unknownValueSerialize(t.unknown_) return } // followersPersonIntermediateType will only have one of its values set at most type followersPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible CollectionType type for followers property Collection CollectionType // Stores possible OrderedCollectionType type for followers property OrderedCollection OrderedCollectionType // Stores possible *url.URL type for followers property anyURI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *followersPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.Collection, ok = resolveObject(kind).(CollectionType); t.Collection != nil && ok { err = t.Collection.Deserialize(m) matched = true break } } } if !matched { for _, kind := range types { if t.OrderedCollection, ok = resolveObject(kind).(OrderedCollectionType); t.OrderedCollection != nil && ok { err = t.OrderedCollection.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.anyURI, err = anyURIDeserialize(i) if err != nil { t.anyURI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *followersPersonIntermediateType) Serialize() (i interface{}, err error) { if t.Collection != nil { i, err = t.Collection.Serialize() return } if t.OrderedCollection != nil { i, err = t.OrderedCollection.Serialize() return } if t.anyURI != nil { i = anyURISerialize(t.anyURI) return } i = unknownValueSerialize(t.unknown_) return } // likedPersonIntermediateType will only have one of its values set at most type likedPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible CollectionType type for liked property Collection CollectionType // Stores possible OrderedCollectionType type for liked property OrderedCollection OrderedCollectionType // Stores possible *url.URL type for liked property anyURI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *likedPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.Collection, ok = resolveObject(kind).(CollectionType); t.Collection != nil && ok { err = t.Collection.Deserialize(m) matched = true break } } } if !matched { for _, kind := range types { if t.OrderedCollection, ok = resolveObject(kind).(OrderedCollectionType); t.OrderedCollection != nil && ok { err = t.OrderedCollection.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.anyURI, err = anyURIDeserialize(i) if err != nil { t.anyURI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *likedPersonIntermediateType) Serialize() (i interface{}, err error) { if t.Collection != nil { i, err = t.Collection.Serialize() return } if t.OrderedCollection != nil { i, err = t.OrderedCollection.Serialize() return } if t.anyURI != nil { i = anyURISerialize(t.anyURI) return } i = unknownValueSerialize(t.unknown_) return } // likesPersonIntermediateType will only have one of its values set at most type likesPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible CollectionType type for likes property Collection CollectionType // Stores possible OrderedCollectionType type for likes property OrderedCollection OrderedCollectionType // Stores possible *url.URL type for likes property anyURI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *likesPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.Collection, ok = resolveObject(kind).(CollectionType); t.Collection != nil && ok { err = t.Collection.Deserialize(m) matched = true break } } } if !matched { for _, kind := range types { if t.OrderedCollection, ok = resolveObject(kind).(OrderedCollectionType); t.OrderedCollection != nil && ok { err = t.OrderedCollection.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.anyURI, err = anyURIDeserialize(i) if err != nil { t.anyURI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *likesPersonIntermediateType) Serialize() (i interface{}, err error) { if t.Collection != nil { i, err = t.Collection.Serialize() return } if t.OrderedCollection != nil { i, err = t.OrderedCollection.Serialize() return } if t.anyURI != nil { i = anyURISerialize(t.anyURI) return } i = unknownValueSerialize(t.unknown_) return } // preferredUsernamePersonIntermediateType will only have one of its values set at most type preferredUsernamePersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible *string type for preferredUsername property stringName *string // Stores possible *url.URL type for preferredUsername property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *preferredUsernamePersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { err = fmt.Errorf("Given map but nothing to do with it for this type: %v", m) } else if i != nil { if !matched { t.stringName, err = stringDeserialize(i) if err != nil { t.stringName = nil } else { matched = true } } if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *preferredUsernamePersonIntermediateType) Serialize() (i interface{}, err error) { if t.stringName != nil { i = stringSerialize(*t.stringName) return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // endpointsPersonIntermediateType will only have one of its values set at most type endpointsPersonIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible ObjectType type for endpoints property Object ObjectType // Stores possible *url.URL type for endpoints property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *endpointsPersonIntermediateType) Deserialize(i interface{}) (err error) { matched := false if m, ok := i.(map[string]interface{}); ok { if tv, ok := m["type"]; ok { var types []string if tvs, ok := tv.([]interface{}); ok { for _, tvi := range tvs { if typeString, ok := tvi.(string); ok { types = append(types, typeString) } } } else if typeString, ok := tv.(string); ok { types = append(types, typeString) } if !matched { for _, kind := range types { if t.Object, ok = resolveObject(kind).(ObjectType); t.Object != nil && ok { err = t.Object.Deserialize(m) matched = true break } } } } else { t.unknown_ = m } } else if i != nil { if !matched { t.IRI, err = IRIDeserialize(i) if err != nil { t.IRI = nil } else { matched = true } } } if !matched { t.unknown_ = unknownValueDeserialize(i) } return } // Serialize turns this object into an interface{}. func (t *endpointsPersonIntermediateType) Serialize() (i interface{}, err error) { if t.Object != nil { i, err = t.Object.Serialize() return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // deserializealtitudePersonIntermediateType will accept a map to create a altitudePersonIntermediateType func deserializeAltitudePersonIntermediateType(in interface{}) (t *altitudePersonIntermediateType, err error) { tmp := &altitudePersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice altitudePersonIntermediateType will accept a slice to create a slice of altitudePersonIntermediateType func deserializeSliceAltitudePersonIntermediateType(in []interface{}) (t []*altitudePersonIntermediateType, err error) { for _, i := range in { tmp := &altitudePersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializealtitudePersonIntermediateType will accept a altitudePersonIntermediateType to create a map func serializeAltitudePersonIntermediateType(t *altitudePersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicealtitudePersonIntermediateType will accept a slice of altitudePersonIntermediateType to create a slice result func serializeSliceAltitudePersonIntermediateType(s []*altitudePersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializeattachmentPersonIntermediateType will accept a map to create a attachmentPersonIntermediateType func deserializeAttachmentPersonIntermediateType(in interface{}) (t *attachmentPersonIntermediateType, err error) { tmp := &attachmentPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice attachmentPersonIntermediateType will accept a slice to create a slice of attachmentPersonIntermediateType func deserializeSliceAttachmentPersonIntermediateType(in []interface{}) (t []*attachmentPersonIntermediateType, err error) { for _, i := range in { tmp := &attachmentPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializeattachmentPersonIntermediateType will accept a attachmentPersonIntermediateType to create a map func serializeAttachmentPersonIntermediateType(t *attachmentPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSliceattachmentPersonIntermediateType will accept a slice of attachmentPersonIntermediateType to create a slice result func serializeSliceAttachmentPersonIntermediateType(s []*attachmentPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializeattributedToPersonIntermediateType will accept a map to create a attributedToPersonIntermediateType func deserializeAttributedToPersonIntermediateType(in interface{}) (t *attributedToPersonIntermediateType, err error) { tmp := &attributedToPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice attributedToPersonIntermediateType will accept a slice to create a slice of attributedToPersonIntermediateType func deserializeSliceAttributedToPersonIntermediateType(in []interface{}) (t []*attributedToPersonIntermediateType, err error) { for _, i := range in { tmp := &attributedToPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializeattributedToPersonIntermediateType will accept a attributedToPersonIntermediateType to create a map func serializeAttributedToPersonIntermediateType(t *attributedToPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSliceattributedToPersonIntermediateType will accept a slice of attributedToPersonIntermediateType to create a slice result func serializeSliceAttributedToPersonIntermediateType(s []*attributedToPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializeaudiencePersonIntermediateType will accept a map to create a audiencePersonIntermediateType func deserializeAudiencePersonIntermediateType(in interface{}) (t *audiencePersonIntermediateType, err error) { tmp := &audiencePersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice audiencePersonIntermediateType will accept a slice to create a slice of audiencePersonIntermediateType func deserializeSliceAudiencePersonIntermediateType(in []interface{}) (t []*audiencePersonIntermediateType, err error) { for _, i := range in { tmp := &audiencePersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializeaudiencePersonIntermediateType will accept a audiencePersonIntermediateType to create a map func serializeAudiencePersonIntermediateType(t *audiencePersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSliceaudiencePersonIntermediateType will accept a slice of audiencePersonIntermediateType to create a slice result func serializeSliceAudiencePersonIntermediateType(s []*audiencePersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializecontentPersonIntermediateType will accept a map to create a contentPersonIntermediateType func deserializeContentPersonIntermediateType(in interface{}) (t *contentPersonIntermediateType, err error) { tmp := &contentPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice contentPersonIntermediateType will accept a slice to create a slice of contentPersonIntermediateType func deserializeSliceContentPersonIntermediateType(in []interface{}) (t []*contentPersonIntermediateType, err error) { for _, i := range in { tmp := &contentPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializecontentPersonIntermediateType will accept a contentPersonIntermediateType to create a map func serializeContentPersonIntermediateType(t *contentPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicecontentPersonIntermediateType will accept a slice of contentPersonIntermediateType to create a slice result func serializeSliceContentPersonIntermediateType(s []*contentPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializecontextPersonIntermediateType will accept a map to create a contextPersonIntermediateType func deserializeContextPersonIntermediateType(in interface{}) (t *contextPersonIntermediateType, err error) { tmp := &contextPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice contextPersonIntermediateType will accept a slice to create a slice of contextPersonIntermediateType func deserializeSliceContextPersonIntermediateType(in []interface{}) (t []*contextPersonIntermediateType, err error) { for _, i := range in { tmp := &contextPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializecontextPersonIntermediateType will accept a contextPersonIntermediateType to create a map func serializeContextPersonIntermediateType(t *contextPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicecontextPersonIntermediateType will accept a slice of contextPersonIntermediateType to create a slice result func serializeSliceContextPersonIntermediateType(s []*contextPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializenamePersonIntermediateType will accept a map to create a namePersonIntermediateType func deserializeNamePersonIntermediateType(in interface{}) (t *namePersonIntermediateType, err error) { tmp := &namePersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice namePersonIntermediateType will accept a slice to create a slice of namePersonIntermediateType func deserializeSliceNamePersonIntermediateType(in []interface{}) (t []*namePersonIntermediateType, err error) { for _, i := range in { tmp := &namePersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializenamePersonIntermediateType will accept a namePersonIntermediateType to create a map func serializeNamePersonIntermediateType(t *namePersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicenamePersonIntermediateType will accept a slice of namePersonIntermediateType to create a slice result func serializeSliceNamePersonIntermediateType(s []*namePersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializeendTimePersonIntermediateType will accept a map to create a endTimePersonIntermediateType func deserializeEndTimePersonIntermediateType(in interface{}) (t *endTimePersonIntermediateType, err error) { tmp := &endTimePersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice endTimePersonIntermediateType will accept a slice to create a slice of endTimePersonIntermediateType func deserializeSliceEndTimePersonIntermediateType(in []interface{}) (t []*endTimePersonIntermediateType, err error) { for _, i := range in { tmp := &endTimePersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializeendTimePersonIntermediateType will accept a endTimePersonIntermediateType to create a map func serializeEndTimePersonIntermediateType(t *endTimePersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSliceendTimePersonIntermediateType will accept a slice of endTimePersonIntermediateType to create a slice result func serializeSliceEndTimePersonIntermediateType(s []*endTimePersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializegeneratorPersonIntermediateType will accept a map to create a generatorPersonIntermediateType func deserializeGeneratorPersonIntermediateType(in interface{}) (t *generatorPersonIntermediateType, err error) { tmp := &generatorPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice generatorPersonIntermediateType will accept a slice to create a slice of generatorPersonIntermediateType func deserializeSliceGeneratorPersonIntermediateType(in []interface{}) (t []*generatorPersonIntermediateType, err error) { for _, i := range in { tmp := &generatorPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializegeneratorPersonIntermediateType will accept a generatorPersonIntermediateType to create a map func serializeGeneratorPersonIntermediateType(t *generatorPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicegeneratorPersonIntermediateType will accept a slice of generatorPersonIntermediateType to create a slice result func serializeSliceGeneratorPersonIntermediateType(s []*generatorPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializeiconPersonIntermediateType will accept a map to create a iconPersonIntermediateType func deserializeIconPersonIntermediateType(in interface{}) (t *iconPersonIntermediateType, err error) { tmp := &iconPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice iconPersonIntermediateType will accept a slice to create a slice of iconPersonIntermediateType func deserializeSliceIconPersonIntermediateType(in []interface{}) (t []*iconPersonIntermediateType, err error) { for _, i := range in { tmp := &iconPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializeiconPersonIntermediateType will accept a iconPersonIntermediateType to create a map func serializeIconPersonIntermediateType(t *iconPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSliceiconPersonIntermediateType will accept a slice of iconPersonIntermediateType to create a slice result func serializeSliceIconPersonIntermediateType(s []*iconPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializeimagePersonIntermediateType will accept a map to create a imagePersonIntermediateType func deserializeImagePersonIntermediateType(in interface{}) (t *imagePersonIntermediateType, err error) { tmp := &imagePersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice imagePersonIntermediateType will accept a slice to create a slice of imagePersonIntermediateType func deserializeSliceImagePersonIntermediateType(in []interface{}) (t []*imagePersonIntermediateType, err error) { for _, i := range in { tmp := &imagePersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializeimagePersonIntermediateType will accept a imagePersonIntermediateType to create a map func serializeImagePersonIntermediateType(t *imagePersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSliceimagePersonIntermediateType will accept a slice of imagePersonIntermediateType to create a slice result func serializeSliceImagePersonIntermediateType(s []*imagePersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializeinReplyToPersonIntermediateType will accept a map to create a inReplyToPersonIntermediateType func deserializeInReplyToPersonIntermediateType(in interface{}) (t *inReplyToPersonIntermediateType, err error) { tmp := &inReplyToPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice inReplyToPersonIntermediateType will accept a slice to create a slice of inReplyToPersonIntermediateType func deserializeSliceInReplyToPersonIntermediateType(in []interface{}) (t []*inReplyToPersonIntermediateType, err error) { for _, i := range in { tmp := &inReplyToPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializeinReplyToPersonIntermediateType will accept a inReplyToPersonIntermediateType to create a map func serializeInReplyToPersonIntermediateType(t *inReplyToPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSliceinReplyToPersonIntermediateType will accept a slice of inReplyToPersonIntermediateType to create a slice result func serializeSliceInReplyToPersonIntermediateType(s []*inReplyToPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializelocationPersonIntermediateType will accept a map to create a locationPersonIntermediateType func deserializeLocationPersonIntermediateType(in interface{}) (t *locationPersonIntermediateType, err error) { tmp := &locationPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice locationPersonIntermediateType will accept a slice to create a slice of locationPersonIntermediateType func deserializeSliceLocationPersonIntermediateType(in []interface{}) (t []*locationPersonIntermediateType, err error) { for _, i := range in { tmp := &locationPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializelocationPersonIntermediateType will accept a locationPersonIntermediateType to create a map func serializeLocationPersonIntermediateType(t *locationPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicelocationPersonIntermediateType will accept a slice of locationPersonIntermediateType to create a slice result func serializeSliceLocationPersonIntermediateType(s []*locationPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializepreviewPersonIntermediateType will accept a map to create a previewPersonIntermediateType func deserializePreviewPersonIntermediateType(in interface{}) (t *previewPersonIntermediateType, err error) { tmp := &previewPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice previewPersonIntermediateType will accept a slice to create a slice of previewPersonIntermediateType func deserializeSlicePreviewPersonIntermediateType(in []interface{}) (t []*previewPersonIntermediateType, err error) { for _, i := range in { tmp := &previewPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializepreviewPersonIntermediateType will accept a previewPersonIntermediateType to create a map func serializePreviewPersonIntermediateType(t *previewPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicepreviewPersonIntermediateType will accept a slice of previewPersonIntermediateType to create a slice result func serializeSlicePreviewPersonIntermediateType(s []*previewPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializepublishedPersonIntermediateType will accept a map to create a publishedPersonIntermediateType func deserializePublishedPersonIntermediateType(in interface{}) (t *publishedPersonIntermediateType, err error) { tmp := &publishedPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice publishedPersonIntermediateType will accept a slice to create a slice of publishedPersonIntermediateType func deserializeSlicePublishedPersonIntermediateType(in []interface{}) (t []*publishedPersonIntermediateType, err error) { for _, i := range in { tmp := &publishedPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializepublishedPersonIntermediateType will accept a publishedPersonIntermediateType to create a map func serializePublishedPersonIntermediateType(t *publishedPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicepublishedPersonIntermediateType will accept a slice of publishedPersonIntermediateType to create a slice result func serializeSlicePublishedPersonIntermediateType(s []*publishedPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializerepliesPersonIntermediateType will accept a map to create a repliesPersonIntermediateType func deserializeRepliesPersonIntermediateType(in interface{}) (t *repliesPersonIntermediateType, err error) { tmp := &repliesPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice repliesPersonIntermediateType will accept a slice to create a slice of repliesPersonIntermediateType func deserializeSliceRepliesPersonIntermediateType(in []interface{}) (t []*repliesPersonIntermediateType, err error) { for _, i := range in { tmp := &repliesPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializerepliesPersonIntermediateType will accept a repliesPersonIntermediateType to create a map func serializeRepliesPersonIntermediateType(t *repliesPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicerepliesPersonIntermediateType will accept a slice of repliesPersonIntermediateType to create a slice result func serializeSliceRepliesPersonIntermediateType(s []*repliesPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializestartTimePersonIntermediateType will accept a map to create a startTimePersonIntermediateType func deserializeStartTimePersonIntermediateType(in interface{}) (t *startTimePersonIntermediateType, err error) { tmp := &startTimePersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice startTimePersonIntermediateType will accept a slice to create a slice of startTimePersonIntermediateType func deserializeSliceStartTimePersonIntermediateType(in []interface{}) (t []*startTimePersonIntermediateType, err error) { for _, i := range in { tmp := &startTimePersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializestartTimePersonIntermediateType will accept a startTimePersonIntermediateType to create a map func serializeStartTimePersonIntermediateType(t *startTimePersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicestartTimePersonIntermediateType will accept a slice of startTimePersonIntermediateType to create a slice result func serializeSliceStartTimePersonIntermediateType(s []*startTimePersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializesummaryPersonIntermediateType will accept a map to create a summaryPersonIntermediateType func deserializeSummaryPersonIntermediateType(in interface{}) (t *summaryPersonIntermediateType, err error) { tmp := &summaryPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice summaryPersonIntermediateType will accept a slice to create a slice of summaryPersonIntermediateType func deserializeSliceSummaryPersonIntermediateType(in []interface{}) (t []*summaryPersonIntermediateType, err error) { for _, i := range in { tmp := &summaryPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializesummaryPersonIntermediateType will accept a summaryPersonIntermediateType to create a map func serializeSummaryPersonIntermediateType(t *summaryPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicesummaryPersonIntermediateType will accept a slice of summaryPersonIntermediateType to create a slice result func serializeSliceSummaryPersonIntermediateType(s []*summaryPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializetagPersonIntermediateType will accept a map to create a tagPersonIntermediateType func deserializeTagPersonIntermediateType(in interface{}) (t *tagPersonIntermediateType, err error) { tmp := &tagPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice tagPersonIntermediateType will accept a slice to create a slice of tagPersonIntermediateType func deserializeSliceTagPersonIntermediateType(in []interface{}) (t []*tagPersonIntermediateType, err error) { for _, i := range in { tmp := &tagPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializetagPersonIntermediateType will accept a tagPersonIntermediateType to create a map func serializeTagPersonIntermediateType(t *tagPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicetagPersonIntermediateType will accept a slice of tagPersonIntermediateType to create a slice result func serializeSliceTagPersonIntermediateType(s []*tagPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializeupdatedPersonIntermediateType will accept a map to create a updatedPersonIntermediateType func deserializeUpdatedPersonIntermediateType(in interface{}) (t *updatedPersonIntermediateType, err error) { tmp := &updatedPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice updatedPersonIntermediateType will accept a slice to create a slice of updatedPersonIntermediateType func deserializeSliceUpdatedPersonIntermediateType(in []interface{}) (t []*updatedPersonIntermediateType, err error) { for _, i := range in { tmp := &updatedPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializeupdatedPersonIntermediateType will accept a updatedPersonIntermediateType to create a map func serializeUpdatedPersonIntermediateType(t *updatedPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSliceupdatedPersonIntermediateType will accept a slice of updatedPersonIntermediateType to create a slice result func serializeSliceUpdatedPersonIntermediateType(s []*updatedPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializeurlPersonIntermediateType will accept a map to create a urlPersonIntermediateType func deserializeUrlPersonIntermediateType(in interface{}) (t *urlPersonIntermediateType, err error) { tmp := &urlPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice urlPersonIntermediateType will accept a slice to create a slice of urlPersonIntermediateType func deserializeSliceUrlPersonIntermediateType(in []interface{}) (t []*urlPersonIntermediateType, err error) { for _, i := range in { tmp := &urlPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializeurlPersonIntermediateType will accept a urlPersonIntermediateType to create a map func serializeUrlPersonIntermediateType(t *urlPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSliceurlPersonIntermediateType will accept a slice of urlPersonIntermediateType to create a slice result func serializeSliceUrlPersonIntermediateType(s []*urlPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializetoPersonIntermediateType will accept a map to create a toPersonIntermediateType func deserializeToPersonIntermediateType(in interface{}) (t *toPersonIntermediateType, err error) { tmp := &toPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice toPersonIntermediateType will accept a slice to create a slice of toPersonIntermediateType func deserializeSliceToPersonIntermediateType(in []interface{}) (t []*toPersonIntermediateType, err error) { for _, i := range in { tmp := &toPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializetoPersonIntermediateType will accept a toPersonIntermediateType to create a map func serializeToPersonIntermediateType(t *toPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicetoPersonIntermediateType will accept a slice of toPersonIntermediateType to create a slice result func serializeSliceToPersonIntermediateType(s []*toPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializebtoPersonIntermediateType will accept a map to create a btoPersonIntermediateType func deserializeBtoPersonIntermediateType(in interface{}) (t *btoPersonIntermediateType, err error) { tmp := &btoPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice btoPersonIntermediateType will accept a slice to create a slice of btoPersonIntermediateType func deserializeSliceBtoPersonIntermediateType(in []interface{}) (t []*btoPersonIntermediateType, err error) { for _, i := range in { tmp := &btoPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializebtoPersonIntermediateType will accept a btoPersonIntermediateType to create a map func serializeBtoPersonIntermediateType(t *btoPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicebtoPersonIntermediateType will accept a slice of btoPersonIntermediateType to create a slice result func serializeSliceBtoPersonIntermediateType(s []*btoPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializeccPersonIntermediateType will accept a map to create a ccPersonIntermediateType func deserializeCcPersonIntermediateType(in interface{}) (t *ccPersonIntermediateType, err error) { tmp := &ccPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice ccPersonIntermediateType will accept a slice to create a slice of ccPersonIntermediateType func deserializeSliceCcPersonIntermediateType(in []interface{}) (t []*ccPersonIntermediateType, err error) { for _, i := range in { tmp := &ccPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializeccPersonIntermediateType will accept a ccPersonIntermediateType to create a map func serializeCcPersonIntermediateType(t *ccPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSliceccPersonIntermediateType will accept a slice of ccPersonIntermediateType to create a slice result func serializeSliceCcPersonIntermediateType(s []*ccPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializebccPersonIntermediateType will accept a map to create a bccPersonIntermediateType func deserializeBccPersonIntermediateType(in interface{}) (t *bccPersonIntermediateType, err error) { tmp := &bccPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice bccPersonIntermediateType will accept a slice to create a slice of bccPersonIntermediateType func deserializeSliceBccPersonIntermediateType(in []interface{}) (t []*bccPersonIntermediateType, err error) { for _, i := range in { tmp := &bccPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializebccPersonIntermediateType will accept a bccPersonIntermediateType to create a map func serializeBccPersonIntermediateType(t *bccPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicebccPersonIntermediateType will accept a slice of bccPersonIntermediateType to create a slice result func serializeSliceBccPersonIntermediateType(s []*bccPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializemediaTypePersonIntermediateType will accept a map to create a mediaTypePersonIntermediateType func deserializeMediaTypePersonIntermediateType(in interface{}) (t *mediaTypePersonIntermediateType, err error) { tmp := &mediaTypePersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice mediaTypePersonIntermediateType will accept a slice to create a slice of mediaTypePersonIntermediateType func deserializeSliceMediaTypePersonIntermediateType(in []interface{}) (t []*mediaTypePersonIntermediateType, err error) { for _, i := range in { tmp := &mediaTypePersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializemediaTypePersonIntermediateType will accept a mediaTypePersonIntermediateType to create a map func serializeMediaTypePersonIntermediateType(t *mediaTypePersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicemediaTypePersonIntermediateType will accept a slice of mediaTypePersonIntermediateType to create a slice result func serializeSliceMediaTypePersonIntermediateType(s []*mediaTypePersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializedurationPersonIntermediateType will accept a map to create a durationPersonIntermediateType func deserializeDurationPersonIntermediateType(in interface{}) (t *durationPersonIntermediateType, err error) { tmp := &durationPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice durationPersonIntermediateType will accept a slice to create a slice of durationPersonIntermediateType func deserializeSliceDurationPersonIntermediateType(in []interface{}) (t []*durationPersonIntermediateType, err error) { for _, i := range in { tmp := &durationPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializedurationPersonIntermediateType will accept a durationPersonIntermediateType to create a map func serializeDurationPersonIntermediateType(t *durationPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicedurationPersonIntermediateType will accept a slice of durationPersonIntermediateType to create a slice result func serializeSliceDurationPersonIntermediateType(s []*durationPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializesourcePersonIntermediateType will accept a map to create a sourcePersonIntermediateType func deserializeSourcePersonIntermediateType(in interface{}) (t *sourcePersonIntermediateType, err error) { tmp := &sourcePersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice sourcePersonIntermediateType will accept a slice to create a slice of sourcePersonIntermediateType func deserializeSliceSourcePersonIntermediateType(in []interface{}) (t []*sourcePersonIntermediateType, err error) { for _, i := range in { tmp := &sourcePersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializesourcePersonIntermediateType will accept a sourcePersonIntermediateType to create a map func serializeSourcePersonIntermediateType(t *sourcePersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicesourcePersonIntermediateType will accept a slice of sourcePersonIntermediateType to create a slice result func serializeSliceSourcePersonIntermediateType(s []*sourcePersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializeinboxPersonIntermediateType will accept a map to create a inboxPersonIntermediateType func deserializeInboxPersonIntermediateType(in interface{}) (t *inboxPersonIntermediateType, err error) { tmp := &inboxPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice inboxPersonIntermediateType will accept a slice to create a slice of inboxPersonIntermediateType func deserializeSliceInboxPersonIntermediateType(in []interface{}) (t []*inboxPersonIntermediateType, err error) { for _, i := range in { tmp := &inboxPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializeinboxPersonIntermediateType will accept a inboxPersonIntermediateType to create a map func serializeInboxPersonIntermediateType(t *inboxPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSliceinboxPersonIntermediateType will accept a slice of inboxPersonIntermediateType to create a slice result func serializeSliceInboxPersonIntermediateType(s []*inboxPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializeoutboxPersonIntermediateType will accept a map to create a outboxPersonIntermediateType func deserializeOutboxPersonIntermediateType(in interface{}) (t *outboxPersonIntermediateType, err error) { tmp := &outboxPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice outboxPersonIntermediateType will accept a slice to create a slice of outboxPersonIntermediateType func deserializeSliceOutboxPersonIntermediateType(in []interface{}) (t []*outboxPersonIntermediateType, err error) { for _, i := range in { tmp := &outboxPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializeoutboxPersonIntermediateType will accept a outboxPersonIntermediateType to create a map func serializeOutboxPersonIntermediateType(t *outboxPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSliceoutboxPersonIntermediateType will accept a slice of outboxPersonIntermediateType to create a slice result func serializeSliceOutboxPersonIntermediateType(s []*outboxPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializefollowingPersonIntermediateType will accept a map to create a followingPersonIntermediateType func deserializeFollowingPersonIntermediateType(in interface{}) (t *followingPersonIntermediateType, err error) { tmp := &followingPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice followingPersonIntermediateType will accept a slice to create a slice of followingPersonIntermediateType func deserializeSliceFollowingPersonIntermediateType(in []interface{}) (t []*followingPersonIntermediateType, err error) { for _, i := range in { tmp := &followingPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializefollowingPersonIntermediateType will accept a followingPersonIntermediateType to create a map func serializeFollowingPersonIntermediateType(t *followingPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicefollowingPersonIntermediateType will accept a slice of followingPersonIntermediateType to create a slice result func serializeSliceFollowingPersonIntermediateType(s []*followingPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializefollowersPersonIntermediateType will accept a map to create a followersPersonIntermediateType func deserializeFollowersPersonIntermediateType(in interface{}) (t *followersPersonIntermediateType, err error) { tmp := &followersPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice followersPersonIntermediateType will accept a slice to create a slice of followersPersonIntermediateType func deserializeSliceFollowersPersonIntermediateType(in []interface{}) (t []*followersPersonIntermediateType, err error) { for _, i := range in { tmp := &followersPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializefollowersPersonIntermediateType will accept a followersPersonIntermediateType to create a map func serializeFollowersPersonIntermediateType(t *followersPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicefollowersPersonIntermediateType will accept a slice of followersPersonIntermediateType to create a slice result func serializeSliceFollowersPersonIntermediateType(s []*followersPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializelikedPersonIntermediateType will accept a map to create a likedPersonIntermediateType func deserializeLikedPersonIntermediateType(in interface{}) (t *likedPersonIntermediateType, err error) { tmp := &likedPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice likedPersonIntermediateType will accept a slice to create a slice of likedPersonIntermediateType func deserializeSliceLikedPersonIntermediateType(in []interface{}) (t []*likedPersonIntermediateType, err error) { for _, i := range in { tmp := &likedPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializelikedPersonIntermediateType will accept a likedPersonIntermediateType to create a map func serializeLikedPersonIntermediateType(t *likedPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicelikedPersonIntermediateType will accept a slice of likedPersonIntermediateType to create a slice result func serializeSliceLikedPersonIntermediateType(s []*likedPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializelikesPersonIntermediateType will accept a map to create a likesPersonIntermediateType func deserializeLikesPersonIntermediateType(in interface{}) (t *likesPersonIntermediateType, err error) { tmp := &likesPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice likesPersonIntermediateType will accept a slice to create a slice of likesPersonIntermediateType func deserializeSliceLikesPersonIntermediateType(in []interface{}) (t []*likesPersonIntermediateType, err error) { for _, i := range in { tmp := &likesPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializelikesPersonIntermediateType will accept a likesPersonIntermediateType to create a map func serializeLikesPersonIntermediateType(t *likesPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicelikesPersonIntermediateType will accept a slice of likesPersonIntermediateType to create a slice result func serializeSliceLikesPersonIntermediateType(s []*likesPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializepreferredUsernamePersonIntermediateType will accept a map to create a preferredUsernamePersonIntermediateType func deserializePreferredUsernamePersonIntermediateType(in interface{}) (t *preferredUsernamePersonIntermediateType, err error) { tmp := &preferredUsernamePersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice preferredUsernamePersonIntermediateType will accept a slice to create a slice of preferredUsernamePersonIntermediateType func deserializeSlicePreferredUsernamePersonIntermediateType(in []interface{}) (t []*preferredUsernamePersonIntermediateType, err error) { for _, i := range in { tmp := &preferredUsernamePersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializepreferredUsernamePersonIntermediateType will accept a preferredUsernamePersonIntermediateType to create a map func serializePreferredUsernamePersonIntermediateType(t *preferredUsernamePersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicepreferredUsernamePersonIntermediateType will accept a slice of preferredUsernamePersonIntermediateType to create a slice result func serializeSlicePreferredUsernamePersonIntermediateType(s []*preferredUsernamePersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializeendpointsPersonIntermediateType will accept a map to create a endpointsPersonIntermediateType func deserializeEndpointsPersonIntermediateType(in interface{}) (t *endpointsPersonIntermediateType, err error) { tmp := &endpointsPersonIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice endpointsPersonIntermediateType will accept a slice to create a slice of endpointsPersonIntermediateType func deserializeSliceEndpointsPersonIntermediateType(in []interface{}) (t []*endpointsPersonIntermediateType, err error) { for _, i := range in { tmp := &endpointsPersonIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializeendpointsPersonIntermediateType will accept a endpointsPersonIntermediateType to create a map func serializeEndpointsPersonIntermediateType(t *endpointsPersonIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSliceendpointsPersonIntermediateType will accept a slice of endpointsPersonIntermediateType to create a slice result func serializeSliceEndpointsPersonIntermediateType(s []*endpointsPersonIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return }