// package vocab import ( "fmt" "net/url" ) // MentionType is an interface for accepting types that extend from 'Mention'. type MentionType interface { Serializer Deserializer 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) HasHref() (ok bool) GetHref() (v *url.URL) SetHref(v *url.URL) HasUnknownHref() (ok bool) GetUnknownHref() (v interface{}) SetUnknownHref(i interface{}) HasId() (ok bool) GetId() (v *url.URL) SetId(v *url.URL) HasUnknownId() (ok bool) GetUnknownId() (v interface{}) SetUnknownId(i interface{}) RelLen() (l int) IsRel(index int) (ok bool) GetRel(index int) (v string) AppendRel(v string) PrependRel(v string) RemoveRel(index int) IsRelIRI(index int) (ok bool) GetRelIRI(index int) (v *url.URL) AppendRelIRI(v *url.URL) PrependRelIRI(v *url.URL) RemoveRelIRI(index int) TypeLen() (l int) GetType(index int) (v interface{}) AppendType(v interface{}) PrependType(v interface{}) RemoveType(index int) IsMediaType() (ok bool) GetMediaType() (v string) SetMediaType(v string) IsMediaTypeIRI() (ok bool) GetMediaTypeIRI() (v *url.URL) SetMediaTypeIRI(v *url.URL) 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) 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) IsHreflang() (ok bool) GetHreflang() (v string) SetHreflang(v string) IsHreflangIRI() (ok bool) GetHreflangIRI() (v *url.URL) SetHreflangIRI(v *url.URL) IsHeight() (ok bool) GetHeight() (v int64) SetHeight(v int64) IsHeightIRI() (ok bool) GetHeightIRI() (v *url.URL) SetHeightIRI(v *url.URL) IsWidth() (ok bool) GetWidth() (v int64) SetWidth(v int64) IsWidthIRI() (ok bool) GetWidthIRI() (v *url.URL) SetWidthIRI(v *url.URL) 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) } // A specialized Link that represents an @mention. type Mention struct { // An unknown value. unknown_ map[string]interface{} // The 'attributedTo' value could have multiple types and values attributedTo []*attributedToMentionIntermediateType // The functional 'href' value holds a single type and a single value href *url.URL // The functional 'id' value holds a single type and a single value id *url.URL // The 'rel' value could have multiple types and values rel []*relMentionIntermediateType // The 'type' value can hold any type and any number of values typeName []interface{} // The functional 'mediaType' value could have multiple types, but only a single value mediaType *mediaTypeMentionIntermediateType // The 'name' value could have multiple types and values name []*nameMentionIntermediateType // The 'nameMap' value holds language-specific values for property 'name' nameMap map[string]string // The 'summary' value could have multiple types and values summary []*summaryMentionIntermediateType // The 'summaryMap' value holds language-specific values for property 'summary' summaryMap map[string]string // The functional 'hreflang' value could have multiple types, but only a single value hreflang *hreflangMentionIntermediateType // The functional 'height' value could have multiple types, but only a single value height *heightMentionIntermediateType // The functional 'width' value could have multiple types, but only a single value width *widthMentionIntermediateType // The 'preview' value could have multiple types and values preview []*previewMentionIntermediateType } // AttributedToLen determines the number of elements able to be used for the IsAttributedToObject, GetAttributedToObject, and RemoveAttributedToObject functions func (t *Mention) AttributedToLen() (l int) { return len(t.attributedTo) } // IsAttributedToObject determines whether the call to GetAttributedToObject is safe for the specified index func (t *Mention) 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 *Mention) GetAttributedToObject(index int) (v ObjectType) { return t.attributedTo[index].Object } // AppendAttributedToObject adds to the back of attributedTo a ObjectType type func (t *Mention) AppendAttributedToObject(v ObjectType) { t.attributedTo = append(t.attributedTo, &attributedToMentionIntermediateType{Object: v}) } // PrependAttributedToObject adds to the front of attributedTo a ObjectType type func (t *Mention) PrependAttributedToObject(v ObjectType) { t.attributedTo = append([]*attributedToMentionIntermediateType{&attributedToMentionIntermediateType{Object: v}}, t.attributedTo...) } // RemoveAttributedToObject deletes the value from the specified index func (t *Mention) 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 *Mention) 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 *Mention) GetAttributedToLink(index int) (v LinkType) { return t.attributedTo[index].Link } // AppendAttributedToLink adds to the back of attributedTo a LinkType type func (t *Mention) AppendAttributedToLink(v LinkType) { t.attributedTo = append(t.attributedTo, &attributedToMentionIntermediateType{Link: v}) } // PrependAttributedToLink adds to the front of attributedTo a LinkType type func (t *Mention) PrependAttributedToLink(v LinkType) { t.attributedTo = append([]*attributedToMentionIntermediateType{&attributedToMentionIntermediateType{Link: v}}, t.attributedTo...) } // RemoveAttributedToLink deletes the value from the specified index func (t *Mention) 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 *Mention) 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 *Mention) GetAttributedToIRI(index int) (v *url.URL) { return t.attributedTo[index].IRI } // AppendAttributedToIRI adds to the back of attributedTo a *url.URL type func (t *Mention) AppendAttributedToIRI(v *url.URL) { t.attributedTo = append(t.attributedTo, &attributedToMentionIntermediateType{IRI: v}) } // PrependAttributedToIRI adds to the front of attributedTo a *url.URL type func (t *Mention) PrependAttributedToIRI(v *url.URL) { t.attributedTo = append([]*attributedToMentionIntermediateType{&attributedToMentionIntermediateType{IRI: v}}, t.attributedTo...) } // RemoveAttributedToIRI deletes the value from the specified index func (t *Mention) 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 *Mention) HasUnknownAttributedTo() (ok bool) { return t.attributedTo != nil && t.attributedTo[0].unknown_ != nil } // GetUnknownAttributedTo returns the unknown value for attributedTo func (t *Mention) GetUnknownAttributedTo() (v interface{}) { return t.attributedTo[0].unknown_ } // SetUnknownAttributedTo sets the unknown value of attributedTo func (t *Mention) SetUnknownAttributedTo(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &attributedToMentionIntermediateType{} tmp.unknown_ = i t.attributedTo = append(t.attributedTo, tmp) } // HasHref determines whether the call to GetHref is safe func (t *Mention) HasHref() (ok bool) { return t.href != nil } // GetHref returns the value for href func (t *Mention) GetHref() (v *url.URL) { return t.href } // SetHref sets the value of href func (t *Mention) SetHref(v *url.URL) { t.href = v } // HasUnknownHref determines whether the call to GetUnknownHref is safe func (t *Mention) HasUnknownHref() (ok bool) { return t.unknown_ != nil && t.unknown_["href"] != nil } // GetUnknownHref returns the unknown value for href func (t *Mention) GetUnknownHref() (v interface{}) { return t.unknown_["href"] } // SetUnknownHref sets the unknown value of href func (t *Mention) SetUnknownHref(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } t.unknown_["href"] = i } // HasId determines whether the call to GetId is safe func (t *Mention) HasId() (ok bool) { return t.id != nil } // GetId returns the value for id func (t *Mention) GetId() (v *url.URL) { return t.id } // SetId sets the value of id func (t *Mention) SetId(v *url.URL) { t.id = v } // HasUnknownId determines whether the call to GetUnknownId is safe func (t *Mention) HasUnknownId() (ok bool) { return t.unknown_ != nil && t.unknown_["id"] != nil } // GetUnknownId returns the unknown value for id func (t *Mention) GetUnknownId() (v interface{}) { return t.unknown_["id"] } // SetUnknownId sets the unknown value of id func (t *Mention) SetUnknownId(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } t.unknown_["id"] = i } // RelLen determines the number of elements able to be used for the IsRel, GetRel, and RemoveRel functions func (t *Mention) RelLen() (l int) { return len(t.rel) } // IsRel determines whether the call to GetRel is safe for the specified index func (t *Mention) IsRel(index int) (ok bool) { return t.rel[index].linkRelation != nil } // GetRel returns the value safely if IsRel returned true for the specified index func (t *Mention) GetRel(index int) (v string) { return *t.rel[index].linkRelation } // AppendRel adds to the back of rel a string type func (t *Mention) AppendRel(v string) { t.rel = append(t.rel, &relMentionIntermediateType{linkRelation: &v}) } // PrependRel adds to the front of rel a string type func (t *Mention) PrependRel(v string) { t.rel = append([]*relMentionIntermediateType{&relMentionIntermediateType{linkRelation: &v}}, t.rel...) } // RemoveRel deletes the value from the specified index func (t *Mention) RemoveRel(index int) { copy(t.rel[index:], t.rel[index+1:]) t.rel[len(t.rel)-1] = nil t.rel = t.rel[:len(t.rel)-1] } // IsRelIRI determines whether the call to GetRelIRI is safe for the specified index func (t *Mention) IsRelIRI(index int) (ok bool) { return t.rel[index].IRI != nil } // GetRelIRI returns the value safely if IsRelIRI returned true for the specified index func (t *Mention) GetRelIRI(index int) (v *url.URL) { return t.rel[index].IRI } // AppendRelIRI adds to the back of rel a *url.URL type func (t *Mention) AppendRelIRI(v *url.URL) { t.rel = append(t.rel, &relMentionIntermediateType{IRI: v}) } // PrependRelIRI adds to the front of rel a *url.URL type func (t *Mention) PrependRelIRI(v *url.URL) { t.rel = append([]*relMentionIntermediateType{&relMentionIntermediateType{IRI: v}}, t.rel...) } // RemoveRelIRI deletes the value from the specified index func (t *Mention) RemoveRelIRI(index int) { copy(t.rel[index:], t.rel[index+1:]) t.rel[len(t.rel)-1] = nil t.rel = t.rel[:len(t.rel)-1] } // HasUnknownRel determines whether the call to GetUnknownRel is safe func (t *Mention) HasUnknownRel() (ok bool) { return t.rel != nil && t.rel[0].unknown_ != nil } // GetUnknownRel returns the unknown value for rel func (t *Mention) GetUnknownRel() (v interface{}) { return t.rel[0].unknown_ } // SetUnknownRel sets the unknown value of rel func (t *Mention) SetUnknownRel(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &relMentionIntermediateType{} tmp.unknown_ = i t.rel = append(t.rel, tmp) } // TypeLen determines the number of elements able to be used for the GetType and RemoveType functions func (t *Mention) TypeLen() (l int) { return len(t.typeName) } // GetType returns the value for the specified index func (t *Mention) GetType(index int) (v interface{}) { return t.typeName[index] } // AppendType adds a value to the back of type func (t *Mention) AppendType(v interface{}) { t.typeName = append(t.typeName, v) } // PrependType adds a value to the front of type func (t *Mention) PrependType(v interface{}) { t.typeName = append([]interface{}{v}, t.typeName...) } // RemoveType deletes the value from the specified index func (t *Mention) 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] } // IsMediaType determines whether the call to GetMediaType is safe func (t *Mention) IsMediaType() (ok bool) { return t.mediaType != nil && t.mediaType.mimeMediaTypeValue != nil } // GetMediaType returns the value safely if IsMediaType returned true func (t *Mention) GetMediaType() (v string) { return *t.mediaType.mimeMediaTypeValue } // SetMediaType sets the value of mediaType to be of string type func (t *Mention) SetMediaType(v string) { t.mediaType = &mediaTypeMentionIntermediateType{mimeMediaTypeValue: &v} } // IsMediaTypeIRI determines whether the call to GetMediaTypeIRI is safe func (t *Mention) IsMediaTypeIRI() (ok bool) { return t.mediaType != nil && t.mediaType.IRI != nil } // GetMediaTypeIRI returns the value safely if IsMediaTypeIRI returned true func (t *Mention) GetMediaTypeIRI() (v *url.URL) { return t.mediaType.IRI } // SetMediaTypeIRI sets the value of mediaType to be of *url.URL type func (t *Mention) SetMediaTypeIRI(v *url.URL) { t.mediaType = &mediaTypeMentionIntermediateType{IRI: v} } // HasUnknownMediaType determines whether the call to GetUnknownMediaType is safe func (t *Mention) HasUnknownMediaType() (ok bool) { return t.mediaType != nil && t.mediaType.unknown_ != nil } // GetUnknownMediaType returns the unknown value for mediaType func (t *Mention) GetUnknownMediaType() (v interface{}) { return t.mediaType.unknown_ } // SetUnknownMediaType sets the unknown value of mediaType func (t *Mention) SetUnknownMediaType(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &mediaTypeMentionIntermediateType{} tmp.unknown_ = i t.mediaType = tmp } // NameLen determines the number of elements able to be used for the IsNameString, GetNameString, and RemoveNameString functions func (t *Mention) NameLen() (l int) { return len(t.name) } // IsNameString determines whether the call to GetNameString is safe for the specified index func (t *Mention) 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 *Mention) GetNameString(index int) (v string) { return *t.name[index].stringName } // AppendNameString adds to the back of name a string type func (t *Mention) AppendNameString(v string) { t.name = append(t.name, &nameMentionIntermediateType{stringName: &v}) } // PrependNameString adds to the front of name a string type func (t *Mention) PrependNameString(v string) { t.name = append([]*nameMentionIntermediateType{&nameMentionIntermediateType{stringName: &v}}, t.name...) } // RemoveNameString deletes the value from the specified index func (t *Mention) 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 *Mention) 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 *Mention) GetNameLangString(index int) (v string) { return *t.name[index].langString } // AppendNameLangString adds to the back of name a string type func (t *Mention) AppendNameLangString(v string) { t.name = append(t.name, &nameMentionIntermediateType{langString: &v}) } // PrependNameLangString adds to the front of name a string type func (t *Mention) PrependNameLangString(v string) { t.name = append([]*nameMentionIntermediateType{&nameMentionIntermediateType{langString: &v}}, t.name...) } // RemoveNameLangString deletes the value from the specified index func (t *Mention) 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 *Mention) 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 *Mention) GetNameIRI(index int) (v *url.URL) { return t.name[index].IRI } // AppendNameIRI adds to the back of name a *url.URL type func (t *Mention) AppendNameIRI(v *url.URL) { t.name = append(t.name, &nameMentionIntermediateType{IRI: v}) } // PrependNameIRI adds to the front of name a *url.URL type func (t *Mention) PrependNameIRI(v *url.URL) { t.name = append([]*nameMentionIntermediateType{&nameMentionIntermediateType{IRI: v}}, t.name...) } // RemoveNameIRI deletes the value from the specified index func (t *Mention) 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 *Mention) HasUnknownName() (ok bool) { return t.name != nil && t.name[0].unknown_ != nil } // GetUnknownName returns the unknown value for name func (t *Mention) GetUnknownName() (v interface{}) { return t.name[0].unknown_ } // SetUnknownName sets the unknown value of name func (t *Mention) SetUnknownName(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &nameMentionIntermediateType{} 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 *Mention) 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 *Mention) 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 *Mention) SetNameMap(l string, v string) { if t.nameMap == nil { t.nameMap = make(map[string]string) } t.nameMap[l] = v } // SummaryLen determines the number of elements able to be used for the IsSummaryString, GetSummaryString, and RemoveSummaryString functions func (t *Mention) SummaryLen() (l int) { return len(t.summary) } // IsSummaryString determines whether the call to GetSummaryString is safe for the specified index func (t *Mention) 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 *Mention) GetSummaryString(index int) (v string) { return *t.summary[index].stringName } // AppendSummaryString adds to the back of summary a string type func (t *Mention) AppendSummaryString(v string) { t.summary = append(t.summary, &summaryMentionIntermediateType{stringName: &v}) } // PrependSummaryString adds to the front of summary a string type func (t *Mention) PrependSummaryString(v string) { t.summary = append([]*summaryMentionIntermediateType{&summaryMentionIntermediateType{stringName: &v}}, t.summary...) } // RemoveSummaryString deletes the value from the specified index func (t *Mention) 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 *Mention) 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 *Mention) GetSummaryLangString(index int) (v string) { return *t.summary[index].langString } // AppendSummaryLangString adds to the back of summary a string type func (t *Mention) AppendSummaryLangString(v string) { t.summary = append(t.summary, &summaryMentionIntermediateType{langString: &v}) } // PrependSummaryLangString adds to the front of summary a string type func (t *Mention) PrependSummaryLangString(v string) { t.summary = append([]*summaryMentionIntermediateType{&summaryMentionIntermediateType{langString: &v}}, t.summary...) } // RemoveSummaryLangString deletes the value from the specified index func (t *Mention) 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 *Mention) 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 *Mention) GetSummaryIRI(index int) (v *url.URL) { return t.summary[index].IRI } // AppendSummaryIRI adds to the back of summary a *url.URL type func (t *Mention) AppendSummaryIRI(v *url.URL) { t.summary = append(t.summary, &summaryMentionIntermediateType{IRI: v}) } // PrependSummaryIRI adds to the front of summary a *url.URL type func (t *Mention) PrependSummaryIRI(v *url.URL) { t.summary = append([]*summaryMentionIntermediateType{&summaryMentionIntermediateType{IRI: v}}, t.summary...) } // RemoveSummaryIRI deletes the value from the specified index func (t *Mention) 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 *Mention) HasUnknownSummary() (ok bool) { return t.summary != nil && t.summary[0].unknown_ != nil } // GetUnknownSummary returns the unknown value for summary func (t *Mention) GetUnknownSummary() (v interface{}) { return t.summary[0].unknown_ } // SetUnknownSummary sets the unknown value of summary func (t *Mention) SetUnknownSummary(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &summaryMentionIntermediateType{} 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 *Mention) 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 *Mention) 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 *Mention) SetSummaryMap(l string, v string) { if t.summaryMap == nil { t.summaryMap = make(map[string]string) } t.summaryMap[l] = v } // IsHreflang determines whether the call to GetHreflang is safe func (t *Mention) IsHreflang() (ok bool) { return t.hreflang != nil && t.hreflang.bcp47LanguageTag != nil } // GetHreflang returns the value safely if IsHreflang returned true func (t *Mention) GetHreflang() (v string) { return *t.hreflang.bcp47LanguageTag } // SetHreflang sets the value of hreflang to be of string type func (t *Mention) SetHreflang(v string) { t.hreflang = &hreflangMentionIntermediateType{bcp47LanguageTag: &v} } // IsHreflangIRI determines whether the call to GetHreflangIRI is safe func (t *Mention) IsHreflangIRI() (ok bool) { return t.hreflang != nil && t.hreflang.IRI != nil } // GetHreflangIRI returns the value safely if IsHreflangIRI returned true func (t *Mention) GetHreflangIRI() (v *url.URL) { return t.hreflang.IRI } // SetHreflangIRI sets the value of hreflang to be of *url.URL type func (t *Mention) SetHreflangIRI(v *url.URL) { t.hreflang = &hreflangMentionIntermediateType{IRI: v} } // HasUnknownHreflang determines whether the call to GetUnknownHreflang is safe func (t *Mention) HasUnknownHreflang() (ok bool) { return t.hreflang != nil && t.hreflang.unknown_ != nil } // GetUnknownHreflang returns the unknown value for hreflang func (t *Mention) GetUnknownHreflang() (v interface{}) { return t.hreflang.unknown_ } // SetUnknownHreflang sets the unknown value of hreflang func (t *Mention) SetUnknownHreflang(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &hreflangMentionIntermediateType{} tmp.unknown_ = i t.hreflang = tmp } // IsHeight determines whether the call to GetHeight is safe func (t *Mention) IsHeight() (ok bool) { return t.height != nil && t.height.nonNegativeInteger != nil } // GetHeight returns the value safely if IsHeight returned true func (t *Mention) GetHeight() (v int64) { return *t.height.nonNegativeInteger } // SetHeight sets the value of height to be of int64 type func (t *Mention) SetHeight(v int64) { t.height = &heightMentionIntermediateType{nonNegativeInteger: &v} } // IsHeightIRI determines whether the call to GetHeightIRI is safe func (t *Mention) IsHeightIRI() (ok bool) { return t.height != nil && t.height.IRI != nil } // GetHeightIRI returns the value safely if IsHeightIRI returned true func (t *Mention) GetHeightIRI() (v *url.URL) { return t.height.IRI } // SetHeightIRI sets the value of height to be of *url.URL type func (t *Mention) SetHeightIRI(v *url.URL) { t.height = &heightMentionIntermediateType{IRI: v} } // HasUnknownHeight determines whether the call to GetUnknownHeight is safe func (t *Mention) HasUnknownHeight() (ok bool) { return t.height != nil && t.height.unknown_ != nil } // GetUnknownHeight returns the unknown value for height func (t *Mention) GetUnknownHeight() (v interface{}) { return t.height.unknown_ } // SetUnknownHeight sets the unknown value of height func (t *Mention) SetUnknownHeight(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &heightMentionIntermediateType{} tmp.unknown_ = i t.height = tmp } // IsWidth determines whether the call to GetWidth is safe func (t *Mention) IsWidth() (ok bool) { return t.width != nil && t.width.nonNegativeInteger != nil } // GetWidth returns the value safely if IsWidth returned true func (t *Mention) GetWidth() (v int64) { return *t.width.nonNegativeInteger } // SetWidth sets the value of width to be of int64 type func (t *Mention) SetWidth(v int64) { t.width = &widthMentionIntermediateType{nonNegativeInteger: &v} } // IsWidthIRI determines whether the call to GetWidthIRI is safe func (t *Mention) IsWidthIRI() (ok bool) { return t.width != nil && t.width.IRI != nil } // GetWidthIRI returns the value safely if IsWidthIRI returned true func (t *Mention) GetWidthIRI() (v *url.URL) { return t.width.IRI } // SetWidthIRI sets the value of width to be of *url.URL type func (t *Mention) SetWidthIRI(v *url.URL) { t.width = &widthMentionIntermediateType{IRI: v} } // HasUnknownWidth determines whether the call to GetUnknownWidth is safe func (t *Mention) HasUnknownWidth() (ok bool) { return t.width != nil && t.width.unknown_ != nil } // GetUnknownWidth returns the unknown value for width func (t *Mention) GetUnknownWidth() (v interface{}) { return t.width.unknown_ } // SetUnknownWidth sets the unknown value of width func (t *Mention) SetUnknownWidth(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &widthMentionIntermediateType{} tmp.unknown_ = i t.width = tmp } // PreviewLen determines the number of elements able to be used for the IsPreviewObject, GetPreviewObject, and RemovePreviewObject functions func (t *Mention) PreviewLen() (l int) { return len(t.preview) } // IsPreviewObject determines whether the call to GetPreviewObject is safe for the specified index func (t *Mention) 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 *Mention) GetPreviewObject(index int) (v ObjectType) { return t.preview[index].Object } // AppendPreviewObject adds to the back of preview a ObjectType type func (t *Mention) AppendPreviewObject(v ObjectType) { t.preview = append(t.preview, &previewMentionIntermediateType{Object: v}) } // PrependPreviewObject adds to the front of preview a ObjectType type func (t *Mention) PrependPreviewObject(v ObjectType) { t.preview = append([]*previewMentionIntermediateType{&previewMentionIntermediateType{Object: v}}, t.preview...) } // RemovePreviewObject deletes the value from the specified index func (t *Mention) 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 *Mention) 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 *Mention) GetPreviewLink(index int) (v LinkType) { return t.preview[index].Link } // AppendPreviewLink adds to the back of preview a LinkType type func (t *Mention) AppendPreviewLink(v LinkType) { t.preview = append(t.preview, &previewMentionIntermediateType{Link: v}) } // PrependPreviewLink adds to the front of preview a LinkType type func (t *Mention) PrependPreviewLink(v LinkType) { t.preview = append([]*previewMentionIntermediateType{&previewMentionIntermediateType{Link: v}}, t.preview...) } // RemovePreviewLink deletes the value from the specified index func (t *Mention) 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 *Mention) 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 *Mention) GetPreviewIRI(index int) (v *url.URL) { return t.preview[index].IRI } // AppendPreviewIRI adds to the back of preview a *url.URL type func (t *Mention) AppendPreviewIRI(v *url.URL) { t.preview = append(t.preview, &previewMentionIntermediateType{IRI: v}) } // PrependPreviewIRI adds to the front of preview a *url.URL type func (t *Mention) PrependPreviewIRI(v *url.URL) { t.preview = append([]*previewMentionIntermediateType{&previewMentionIntermediateType{IRI: v}}, t.preview...) } // RemovePreviewIRI deletes the value from the specified index func (t *Mention) 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 *Mention) HasUnknownPreview() (ok bool) { return t.preview != nil && t.preview[0].unknown_ != nil } // GetUnknownPreview returns the unknown value for preview func (t *Mention) GetUnknownPreview() (v interface{}) { return t.preview[0].unknown_ } // SetUnknownPreview sets the unknown value of preview func (t *Mention) SetUnknownPreview(i interface{}) { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } tmp := &previewMentionIntermediateType{} tmp.unknown_ = i t.preview = append(t.preview, tmp) } // AddUnknown adds a raw extension to this object with the specified key func (t *Mention) AddUnknown(k string, i interface{}) (this *Mention) { 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 *Mention) 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 *Mention) RemoveUnknown(k string) (this *Mention) { 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 "Mention" if not manually set by the caller func (t *Mention) 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 == "Mention" { typeAlreadySet = true break } } } if !typeAlreadySet { t.typeName = append(t.typeName, "Mention") } // Begin generation by generateNonFunctionalMultiTypeDefinition if v, err := serializeSliceAttributedToMentionIntermediateType(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 RangeReference.Serialize for Value if t.href != nil { hrefSerializeFunc := func() (interface{}, error) { v := t.href tmp := anyURISerialize(v) return tmp, nil } hrefResult, err := hrefSerializeFunc() if err == nil { m["href"] = hrefResult } else { return m, err } } // End generation by RangeReference.Serialize for Value // 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 := serializeSliceRelMentionIntermediateType(t.rel); err == nil && v != nil { if len(v) == 1 { m["rel"] = v[0] } else { m["rel"] = 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.mediaType != nil { if v, err := serializeMediaTypeMentionIntermediateType(t.mediaType); err == nil { m["mediaType"] = v } else { return m, err } } // End generation by generateFunctionalMultiTypeDefinition // Begin generation by generateNonFunctionalMultiTypeDefinition if v, err := serializeSliceNameMentionIntermediateType(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 generateNonFunctionalMultiTypeDefinition if v, err := serializeSliceSummaryMentionIntermediateType(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 generateFunctionalMultiTypeDefinition if t.hreflang != nil { if v, err := serializeHreflangMentionIntermediateType(t.hreflang); err == nil { m["hreflang"] = v } else { return m, err } } // End generation by generateFunctionalMultiTypeDefinition // Begin generation by generateFunctionalMultiTypeDefinition if t.height != nil { if v, err := serializeHeightMentionIntermediateType(t.height); err == nil { m["height"] = v } else { return m, err } } // End generation by generateFunctionalMultiTypeDefinition // Begin generation by generateFunctionalMultiTypeDefinition if t.width != nil { if v, err := serializeWidthMentionIntermediateType(t.width); err == nil { m["width"] = v } else { return m, err } } // End generation by generateFunctionalMultiTypeDefinition // Begin generation by generateNonFunctionalMultiTypeDefinition if v, err := serializeSlicePreviewMentionIntermediateType(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 return } // Deserialize populates this object from a map[string]interface{} func (t *Mention) Deserialize(m map[string]interface{}) (err error) { for k, v := range m { handled := false if !handled { // Begin generation by generateNonFunctionalMultiTypeDefinition if k == "attributedTo" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializeAttributedToMentionIntermediateType(tmpMap) if err != nil { return err } t.attributedTo = []*attributedToMentionIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.attributedTo, err = deserializeSliceAttributedToMentionIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &attributedToMentionIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.attributedTo = []*attributedToMentionIntermediateType{tmp} handled = true } } // End generation by generateNonFunctionalMultiTypeDefinition } if !handled { // Begin generation by RangeReference.Deserialize for Value if k == "href" { if v, ok := v.(interface{}); ok { tmp, err := anyURIDeserialize(v) if err != nil { return err } t.href = tmp handled = true } } // End generation by RangeReference.Deserialize for Value } 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 == "rel" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializeRelMentionIntermediateType(tmpMap) if err != nil { return err } t.rel = []*relMentionIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.rel, err = deserializeSliceRelMentionIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &relMentionIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.rel = []*relMentionIntermediateType{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 == "mediaType" { t.mediaType, err = deserializeMediaTypeMentionIntermediateType(v) if err != nil { return err } handled = true } // End generation by generateFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateNonFunctionalMultiTypeDefinition if k == "name" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializeNameMentionIntermediateType(tmpMap) if err != nil { return err } t.name = []*nameMentionIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.name, err = deserializeSliceNameMentionIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &nameMentionIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.name = []*nameMentionIntermediateType{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 generateNonFunctionalMultiTypeDefinition if k == "summary" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializeSummaryMentionIntermediateType(tmpMap) if err != nil { return err } t.summary = []*summaryMentionIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.summary, err = deserializeSliceSummaryMentionIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &summaryMentionIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.summary = []*summaryMentionIntermediateType{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 generateFunctionalMultiTypeDefinition if k == "hreflang" { t.hreflang, err = deserializeHreflangMentionIntermediateType(v) if err != nil { return err } handled = true } // End generation by generateFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateFunctionalMultiTypeDefinition if k == "height" { t.height, err = deserializeHeightMentionIntermediateType(v) if err != nil { return err } handled = true } // End generation by generateFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateFunctionalMultiTypeDefinition if k == "width" { t.width, err = deserializeWidthMentionIntermediateType(v) if err != nil { return err } handled = true } // End generation by generateFunctionalMultiTypeDefinition } if !handled { // Begin generation by generateNonFunctionalMultiTypeDefinition if k == "preview" { if tmpMap, ok := v.(map[string]interface{}); ok { tmp, err := deserializePreviewMentionIntermediateType(tmpMap) if err != nil { return err } t.preview = []*previewMentionIntermediateType{tmp} handled = true } else if tmpSlice, ok := v.([]interface{}); ok { t.preview, err = deserializeSlicePreviewMentionIntermediateType(tmpSlice) if err != nil { return err } handled = true } else { tmp := &previewMentionIntermediateType{} err = tmp.Deserialize(v) if err != nil { return err } t.preview = []*previewMentionIntermediateType{tmp} handled = true } } // End generation by generateNonFunctionalMultiTypeDefinition } if !handled && k != "@context" { if t.unknown_ == nil { t.unknown_ = make(map[string]interface{}) } t.unknown_[k] = unknownValueDeserialize(v) } } return } // attributedToMentionIntermediateType will only have one of its values set at most type attributedToMentionIntermediateType 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 *attributedToMentionIntermediateType) 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 *attributedToMentionIntermediateType) 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 } // relMentionIntermediateType will only have one of its values set at most type relMentionIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible *string type for rel property linkRelation *string // Stores possible *url.URL type for rel property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *relMentionIntermediateType) 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.linkRelation, err = linkRelationDeserialize(i) if err != nil { t.linkRelation = 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 *relMentionIntermediateType) Serialize() (i interface{}, err error) { if t.linkRelation != nil { i = linkRelationSerialize(*t.linkRelation) return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // mediaTypeMentionIntermediateType will only have one of its values set at most type mediaTypeMentionIntermediateType 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 *mediaTypeMentionIntermediateType) 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 *mediaTypeMentionIntermediateType) 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 } // nameMentionIntermediateType will only have one of its values set at most type nameMentionIntermediateType 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 *nameMentionIntermediateType) 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 *nameMentionIntermediateType) 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 } // summaryMentionIntermediateType will only have one of its values set at most type summaryMentionIntermediateType 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 *summaryMentionIntermediateType) 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 *summaryMentionIntermediateType) 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 } // hreflangMentionIntermediateType will only have one of its values set at most type hreflangMentionIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible *string type for hreflang property bcp47LanguageTag *string // Stores possible *url.URL type for hreflang property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *hreflangMentionIntermediateType) 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.bcp47LanguageTag, err = bcp47LanguageTagDeserialize(i) if err != nil { t.bcp47LanguageTag = 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 *hreflangMentionIntermediateType) Serialize() (i interface{}, err error) { if t.bcp47LanguageTag != nil { i = bcp47LanguageTagSerialize(*t.bcp47LanguageTag) return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // heightMentionIntermediateType will only have one of its values set at most type heightMentionIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible *int64 type for height property nonNegativeInteger *int64 // Stores possible *url.URL type for height property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *heightMentionIntermediateType) 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.nonNegativeInteger, err = nonNegativeIntegerDeserialize(i) if err != nil { t.nonNegativeInteger = 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 *heightMentionIntermediateType) Serialize() (i interface{}, err error) { if t.nonNegativeInteger != nil { i = nonNegativeIntegerSerialize(*t.nonNegativeInteger) return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // widthMentionIntermediateType will only have one of its values set at most type widthMentionIntermediateType struct { // An unknown value. unknown_ interface{} // Stores possible *int64 type for width property nonNegativeInteger *int64 // Stores possible *url.URL type for width property IRI *url.URL } // Deserialize takes an interface{} and attempts to create a valid intermediate type. func (t *widthMentionIntermediateType) 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.nonNegativeInteger, err = nonNegativeIntegerDeserialize(i) if err != nil { t.nonNegativeInteger = 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 *widthMentionIntermediateType) Serialize() (i interface{}, err error) { if t.nonNegativeInteger != nil { i = nonNegativeIntegerSerialize(*t.nonNegativeInteger) return } if t.IRI != nil { i = IRISerialize(t.IRI) return } i = unknownValueSerialize(t.unknown_) return } // previewMentionIntermediateType will only have one of its values set at most type previewMentionIntermediateType 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 *previewMentionIntermediateType) 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 *previewMentionIntermediateType) 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 } // deserializeattributedToMentionIntermediateType will accept a map to create a attributedToMentionIntermediateType func deserializeAttributedToMentionIntermediateType(in interface{}) (t *attributedToMentionIntermediateType, err error) { tmp := &attributedToMentionIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice attributedToMentionIntermediateType will accept a slice to create a slice of attributedToMentionIntermediateType func deserializeSliceAttributedToMentionIntermediateType(in []interface{}) (t []*attributedToMentionIntermediateType, err error) { for _, i := range in { tmp := &attributedToMentionIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializeattributedToMentionIntermediateType will accept a attributedToMentionIntermediateType to create a map func serializeAttributedToMentionIntermediateType(t *attributedToMentionIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSliceattributedToMentionIntermediateType will accept a slice of attributedToMentionIntermediateType to create a slice result func serializeSliceAttributedToMentionIntermediateType(s []*attributedToMentionIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializerelMentionIntermediateType will accept a map to create a relMentionIntermediateType func deserializeRelMentionIntermediateType(in interface{}) (t *relMentionIntermediateType, err error) { tmp := &relMentionIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice relMentionIntermediateType will accept a slice to create a slice of relMentionIntermediateType func deserializeSliceRelMentionIntermediateType(in []interface{}) (t []*relMentionIntermediateType, err error) { for _, i := range in { tmp := &relMentionIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializerelMentionIntermediateType will accept a relMentionIntermediateType to create a map func serializeRelMentionIntermediateType(t *relMentionIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicerelMentionIntermediateType will accept a slice of relMentionIntermediateType to create a slice result func serializeSliceRelMentionIntermediateType(s []*relMentionIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializemediaTypeMentionIntermediateType will accept a map to create a mediaTypeMentionIntermediateType func deserializeMediaTypeMentionIntermediateType(in interface{}) (t *mediaTypeMentionIntermediateType, err error) { tmp := &mediaTypeMentionIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice mediaTypeMentionIntermediateType will accept a slice to create a slice of mediaTypeMentionIntermediateType func deserializeSliceMediaTypeMentionIntermediateType(in []interface{}) (t []*mediaTypeMentionIntermediateType, err error) { for _, i := range in { tmp := &mediaTypeMentionIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializemediaTypeMentionIntermediateType will accept a mediaTypeMentionIntermediateType to create a map func serializeMediaTypeMentionIntermediateType(t *mediaTypeMentionIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicemediaTypeMentionIntermediateType will accept a slice of mediaTypeMentionIntermediateType to create a slice result func serializeSliceMediaTypeMentionIntermediateType(s []*mediaTypeMentionIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializenameMentionIntermediateType will accept a map to create a nameMentionIntermediateType func deserializeNameMentionIntermediateType(in interface{}) (t *nameMentionIntermediateType, err error) { tmp := &nameMentionIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice nameMentionIntermediateType will accept a slice to create a slice of nameMentionIntermediateType func deserializeSliceNameMentionIntermediateType(in []interface{}) (t []*nameMentionIntermediateType, err error) { for _, i := range in { tmp := &nameMentionIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializenameMentionIntermediateType will accept a nameMentionIntermediateType to create a map func serializeNameMentionIntermediateType(t *nameMentionIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicenameMentionIntermediateType will accept a slice of nameMentionIntermediateType to create a slice result func serializeSliceNameMentionIntermediateType(s []*nameMentionIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializesummaryMentionIntermediateType will accept a map to create a summaryMentionIntermediateType func deserializeSummaryMentionIntermediateType(in interface{}) (t *summaryMentionIntermediateType, err error) { tmp := &summaryMentionIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice summaryMentionIntermediateType will accept a slice to create a slice of summaryMentionIntermediateType func deserializeSliceSummaryMentionIntermediateType(in []interface{}) (t []*summaryMentionIntermediateType, err error) { for _, i := range in { tmp := &summaryMentionIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializesummaryMentionIntermediateType will accept a summaryMentionIntermediateType to create a map func serializeSummaryMentionIntermediateType(t *summaryMentionIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicesummaryMentionIntermediateType will accept a slice of summaryMentionIntermediateType to create a slice result func serializeSliceSummaryMentionIntermediateType(s []*summaryMentionIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializehreflangMentionIntermediateType will accept a map to create a hreflangMentionIntermediateType func deserializeHreflangMentionIntermediateType(in interface{}) (t *hreflangMentionIntermediateType, err error) { tmp := &hreflangMentionIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice hreflangMentionIntermediateType will accept a slice to create a slice of hreflangMentionIntermediateType func deserializeSliceHreflangMentionIntermediateType(in []interface{}) (t []*hreflangMentionIntermediateType, err error) { for _, i := range in { tmp := &hreflangMentionIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializehreflangMentionIntermediateType will accept a hreflangMentionIntermediateType to create a map func serializeHreflangMentionIntermediateType(t *hreflangMentionIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicehreflangMentionIntermediateType will accept a slice of hreflangMentionIntermediateType to create a slice result func serializeSliceHreflangMentionIntermediateType(s []*hreflangMentionIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializeheightMentionIntermediateType will accept a map to create a heightMentionIntermediateType func deserializeHeightMentionIntermediateType(in interface{}) (t *heightMentionIntermediateType, err error) { tmp := &heightMentionIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice heightMentionIntermediateType will accept a slice to create a slice of heightMentionIntermediateType func deserializeSliceHeightMentionIntermediateType(in []interface{}) (t []*heightMentionIntermediateType, err error) { for _, i := range in { tmp := &heightMentionIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializeheightMentionIntermediateType will accept a heightMentionIntermediateType to create a map func serializeHeightMentionIntermediateType(t *heightMentionIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSliceheightMentionIntermediateType will accept a slice of heightMentionIntermediateType to create a slice result func serializeSliceHeightMentionIntermediateType(s []*heightMentionIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializewidthMentionIntermediateType will accept a map to create a widthMentionIntermediateType func deserializeWidthMentionIntermediateType(in interface{}) (t *widthMentionIntermediateType, err error) { tmp := &widthMentionIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice widthMentionIntermediateType will accept a slice to create a slice of widthMentionIntermediateType func deserializeSliceWidthMentionIntermediateType(in []interface{}) (t []*widthMentionIntermediateType, err error) { for _, i := range in { tmp := &widthMentionIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializewidthMentionIntermediateType will accept a widthMentionIntermediateType to create a map func serializeWidthMentionIntermediateType(t *widthMentionIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicewidthMentionIntermediateType will accept a slice of widthMentionIntermediateType to create a slice result func serializeSliceWidthMentionIntermediateType(s []*widthMentionIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return } // deserializepreviewMentionIntermediateType will accept a map to create a previewMentionIntermediateType func deserializePreviewMentionIntermediateType(in interface{}) (t *previewMentionIntermediateType, err error) { tmp := &previewMentionIntermediateType{} err = tmp.Deserialize(in) return tmp, err } // deserializeSlice previewMentionIntermediateType will accept a slice to create a slice of previewMentionIntermediateType func deserializeSlicePreviewMentionIntermediateType(in []interface{}) (t []*previewMentionIntermediateType, err error) { for _, i := range in { tmp := &previewMentionIntermediateType{} err = tmp.Deserialize(i) if err != nil { return } t = append(t, tmp) } return } // serializepreviewMentionIntermediateType will accept a previewMentionIntermediateType to create a map func serializePreviewMentionIntermediateType(t *previewMentionIntermediateType) (i interface{}, err error) { i, err = t.Serialize() return } // serializeSlicepreviewMentionIntermediateType will accept a slice of previewMentionIntermediateType to create a slice result func serializeSlicePreviewMentionIntermediateType(s []*previewMentionIntermediateType) (out []interface{}, err error) { for _, t := range s { v, err := t.Serialize() if err != nil { return nil, err } out = append(out, v) } return }