# frozen_string_literal: true module Bolognese module Readers module SchemaOrgReader SO_TO_DC_RELATION_TYPES = { "citation" => "References", "sameAs" => "IsIdenticalTo", "isPartOf" => "IsPartOf", "hasPart" => "HasPart", "isPredecessor" => "IsPreviousVersionOf", "isSuccessor" => "IsNewVersionOf" } def get_schema_org(id: nil, **options) return { "string" => nil, "state" => "not_found" } unless id.present? id = normalize_id(id) response = Maremma.get(id) doc = Nokogiri::XML(response.body.fetch("data", nil), nil, 'UTF-8') # workaround for xhtml documents nodeset = doc.css("script") string = nodeset.find { |element| element["type"] == "application/ld+json" } string = string.text if string.present? { "string" => string } end def read_schema_org(string: nil, **options) if string.present? errors = jsonlint(string) return { "errors" => errors } if errors.present? end meta = string.present? ? Maremma.from_json(string) : {} identifier = Array.wrap(meta.fetch("identifier", nil)) if identifier.length > 1 alternate_identifiers = identifier[1..-1].map do |r| if r.is_a?(String) { "type" => "URL", "name" => r } elsif r.is_a?(Hash) { "type" => r["propertyID"], "name" => r["value"] } end end.unwrap else alternate_identifiers = nil end identifier = identifier.first id = normalize_id(meta.fetch("@id", nil) || meta.fetch("identifier", nil)) type = meta.fetch("@type", nil) && meta.fetch("@type").camelcase resource_type_general = Bolognese::Utils::SO_TO_DC_TRANSLATIONS[type] types = { "type" => type, "resource_type_general" => resource_type_general, "resource_type" => meta.fetch("additionalType", nil), "citeproc" => Bolognese::Utils::SO_TO_CP_TRANSLATIONS[type] || "article-journal", "bibtex" => Bolognese::Utils::SO_TO_BIB_TRANSLATIONS[type] || "misc", "ris" => Bolognese::Utils::SO_TO_RIS_TRANSLATIONS[resource_type_general.to_s.dasherize] || "GEN" }.compact authors = meta.fetch("author", nil) || meta.fetch("creator", nil) author = get_authors(from_schema_org(Array.wrap(authors))) editor = get_authors(from_schema_org(Array.wrap(meta.fetch("editor", nil)))) publisher = parse_attributes(meta.fetch("publisher", nil), content: "name", first: true) ct = (type == "Dataset") ? "includedInDataCatalog" : "Periodical" periodical = if meta.fetch(ct, nil).present? { "type" => (type == "Dataset") ? "DataCatalog" : "Periodical", "title" => parse_attributes(from_schema_org(meta.fetch(ct, nil)), content: "name", first: true), "url" => parse_attributes(from_schema_org(meta.fetch(ct, nil)), content: "url", first: true) }.compact else nil end related_identifiers = Array.wrap(schema_org_is_identical_to(meta)) + Array.wrap(schema_org_is_part_of(meta)) + Array.wrap(schema_org_has_part(meta)) + Array.wrap(schema_org_is_previous_version_of(meta)) + Array.wrap(schema_org_is_new_version_of(meta)) + Array.wrap(schema_org_references(meta)) + Array.wrap(schema_org_is_referenced_by(meta)) + Array.wrap(schema_org_is_supplement_to(meta)) + Array.wrap(schema_org_is_supplemented_by(meta)) rights = { "id" => parse_attributes(meta.fetch("license", nil), content: "id", first: true), "name" => parse_attributes(meta.fetch("license", nil), content: "name", first: true) } funding_references = Array.wrap(meta.fetch("funder", nil)).compact.map do |fr| { "funder_name" => fr["name"], "funder_identifier" => fr["@id"], "funder_identifier_type" => fr["@id"].to_s.start_with?("https://doi.org/10.13039") ? "Crossref Funder ID" : nil }.compact end dates = [] dates << { "date" => meta.fetch("datePublished"), "date_type" => "Issued" } if meta.fetch("datePublished", nil).present? dates << { "date" => meta.fetch("dateCreated"), "date_type" => "Created" } if meta.fetch("dateCreated", nil).present? dates << { "date" => meta.fetch("dateModified"), "date_type" => "Updated" } if meta.fetch("dateModified", nil).present? publication_year = meta.fetch("datePublished")[0..3] if meta.fetch("datePublished", nil).present? state = meta.present? ? "findable" : "not_found" geo_location = Array.wrap(meta.fetch("spatialCoverage", nil)).map do |gl| if gl.dig("geo", "box") s, w, n, e = gl.dig("geo", "box").split(" ", 4) geo_location_box = { "west_bound_longitude" => w, "east_bound_longitude" => e, "south_bound_latitude" => s, "north_bound_latitude" => n }.compact.presence else geo_location_box = nil end geo_location_point = { "point_longitude" => gl.dig("geo", "longitude"), "point_latitude" => gl.dig("geo", "latitude") }.compact.presence { "geo_location_place" => gl.dig("geo", "address"), "geo_location_point" => geo_location_point, "geo_location_box" => geo_location_box }.compact end { "id" => id, "types" => types, "doi" => validate_doi(id), "identifier" => identifier, "alternate_identifiers" => alternate_identifiers, "url" => normalize_id(meta.fetch("url", nil)), "content_url" => Array.wrap(meta.fetch("contentUrl", nil)).unwrap, "size" => meta.fetch("contenSize", nil), "formats" => Array.wrap(meta.fetch("encodingFormat", nil) || meta.fetch("fileFormat", nil)).unwrap, "title" => meta.fetch("name", nil).present? ? [{ "text" => meta.fetch("name", nil) }] : nil, "creator" => author, "editor" => editor, "publisher" => publisher, "service_provider" => parse_attributes(meta.fetch("provider", nil), content: "name", first: true), "periodical" => periodical, "related_identifiers" => related_identifiers, "publication_year" => publication_year, "dates" => dates, "description" => meta.fetch("description", nil).present? ? [{ "text" => sanitize(meta.fetch("description")) }] : nil, "rights" => rights, "version" => meta.fetch("version", nil), "keywords" => meta.fetch("keywords", nil).to_s.split(", "), "state" => state, "schema_version" => meta.fetch("schemaVersion", nil), "funding_references" => funding_references, "geo_location" => geo_location } end def schema_org_related_identifier(meta, relation_type: nil) normalize_ids(ids: meta.fetch(relation_type, nil), relation_type: SO_TO_DC_RELATION_TYPES[relation_type]) end def schema_org_reverse_related_identifier(meta, relation_type: nil) normalize_ids(ids: meta.dig("@reverse", relation_type), relation_type: SO_TO_DC_RELATION_TYPES[relation_type]) end def schema_org_is_identical_to(meta) schema_org_related_identifier(meta, relation_type: "sameAs") end def schema_org_is_part_of(meta) schema_org_related_identifier(meta, relation_type: "isPartOf") end def schema_org_has_part(meta) schema_org_related_identifier(meta, relation_type: "hasPart") end def schema_org_is_previous_version_of(meta) schema_org_related_identifier(meta, relation_type: "PredecessorOf") end def schema_org_is_new_version_of(meta) schema_org_related_identifier(meta, relation_type: "SuccessorOf") end def schema_org_references(meta) schema_org_related_identifier(meta, relation_type: "citation") end def schema_org_is_referenced_by(meta) schema_org_reverse_related_identifier(meta, relation_type: "citation") end def schema_org_is_supplement_to(meta) schema_org_reverse_related_identifier(meta, relation_type: "isBasedOn") end def schema_org_is_supplemented_by(meta) schema_org_related_identifier(meta, relation_type: "isBasedOn") end end end end