{ "cells": [ { "cell_type": "markdown", "id": "lightweight-detroit", "metadata": {}, "source": [ "## Mapping *Pan-Latin Textile Fibres Vocabulary* from spreadsheet to SKOS resources\n", "\n", "This Notebook implements a simple parser used to transform the Pan-Latin Textile Fibres Vocabulary, developed within the Realiter network, and published as spreadsheets, into SKOS resources. The parser reads the spreadsheets and transforms the content in SKOS data following a set of mapping rules, the result is stored in two Turtle files.\n", "\n" ] }, { "cell_type": "code", "execution_count": 1, "id": "modified-vegetarian", "metadata": {}, "outputs": [], "source": [ "import pandas as pd\n", "import rdflib\n", "import itertools\n", "import yaml\n", "import datetime" ] }, { "cell_type": "markdown", "id": "hundred-singles", "metadata": {}, "source": [ "The file *config.yaml* contains the external information used in the parsing, including the position of the spreadsheets. Set the correct values before running the Notebook." ] }, { "cell_type": "code", "execution_count": 2, "id": "stupid-lewis", "metadata": {}, "outputs": [], "source": [ "try:\n", " with open(\"config-lessico.yaml\", 'r') as stream:\n", " try:\n", " conf=yaml.safe_load(stream)\n", " except yaml.YAMLError as exc:\n", " print(exc)\n", "except FileNotFoundError:\n", " print('Warning config.yaml file not present! Please store it in the same directory as the notebook')\n", "#print (conf)" ] }, { "cell_type": "markdown", "id": "generic-thong", "metadata": {}, "source": [ "The following cells defines the *Namespaces* used in the parsing" ] }, { "cell_type": "code", "execution_count": 3, "id": "oriental-structure", "metadata": {}, "outputs": [], "source": [ "from rdflib.namespace import DC, DCAT, DCTERMS, OWL, \\\n", " RDF, RDFS, SKOS, \\\n", " XMLNS, XSD, XMLNS\n", "from rdflib import Namespace\n", "from rdflib import URIRef, BNode, Literal\n", "\n", "pltextile = Namespace(conf['Namespaces']['TEXTILETERM'])\n", "dc11=Namespace(\"http://purl.org/dc/elements/1.1/\");\n", "dct = Namespace(\"http://purl.org/dc/terms/\")\n", "iso369=Namespace(\"http://id.loc.gov/vocabulary/iso639-3\");" ] }, { "cell_type": "markdown", "id": "sacred-shopper", "metadata": {}, "source": [ "Download **Lessico** spreadsheet and show it to check if the operation has been executed correctly" ] }, { "cell_type": "code", "execution_count": 4, "id": "systematic-saudi", "metadata": {}, "outputs": [], "source": [ "url=conf['Source']['LESSICOSOURCE']\n", "df_data=pd.read_csv(url)" ] }, { "cell_type": "code", "execution_count": 5, "id": "sunrise-reunion", "metadata": {}, "outputs": [ { "data": { "text/html": [ "
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itDEFcaeses [ARG]es [ARG/MEX]es [MEX]frfr [CA]glptroen
0abaca (s.m.)\\nfibra di abaca (s.f.)\\ncanapa di...Fibra ottenuta dalle foglie della Musa textilis.abacà (n.m.)\\nfibra d’abacà (n.f.)\\ncànem de M...abacá (s.m.)\\nfibra de abacá (s.f.)\\ncáñamo de...NaNNaNabacá de Manila (s.m.)abaca (n.m.)\\nchanvre de Manille (n.m.)\\ntagal...fibre d’abaca (n.f.)\\nmanille (n.f.)abacá (s.m.)\\ncánabo de Manila (s.m.)abacá (s.m.)\\nmanila (s.f.)\\ncânhamo-de-manila...abaca (s.f.)abaca\\nabaca fibre\\nManila hemp
1acetato (s.m.)\\nfibra di acetato (s.f.)Fibra prodotta a partire dall’acetato di cellu...raió (n.m.)\\nfibra d’acetat (n.f.)acetato (s.m.) \\nrayón acetato (s.m.)rayón (s.m.)\\nviscosa (s.f.)fibra de acetato (s.f.)NaNacétate (n.m.) \\nfibre d’acétate (n.f.)NaNacetato (s.m.)\\nfibra de acetato (s.f.)acetato (s.m.)\\nfibra de acetato (s.f.) \\nraio...acetat (s.m.)acetate\\nacetate fibre
2acrilico (s.m.)\\nfibra acrilica (s.f.)\\nacrili...Fibra costituita da macromolecole lineari cont...acrílic, -a (adj.)\\nfibra acrílica (n.f.)acrílica (s.f.)\\nfibra acrílica (s.f.)NaNacrílico (s.m.)fibra de acrílico (s.f.)acrylique (n.m.)\\nfibre acrylique (n.f.)NaNacrílico (s.m.)\\nfibra acrílica (s.f.)acrílico (s.m.)\\nfibra acrílica (s.f.)acrilic (s.m.)acrylic\\nacrylic fibre
3alfa (s.f.)\\nfibra d’alfa (s.f.)Fibra ricavata dalle foglie della Stipa tenaci...espart (n.m.)\\nfibra d’espart (n.f.)esparto (s.m.) \\nfibra de esparto (s.f.)NaNfibra alfa (s.f.)alfa (s.m.)alfa (n.m.)sparte (n.m.)\\nspart (n.m.)alfa (s.f.)\\nesparto (s.m.)alfa (s.f.)\\nfibra de alfa (s.f.)alfa (s.m.)\\nfibră alfa (s.f.)alfa\\nalfa fibre
4alginica (s.f.)\\nfibra alginica (s.f.)Fibra prodotta a partire dai sali metallici de...fibra d’alginat (n.f.)fibra algínica (s.f.)\\nfibra de alginato (s.f.)NaNNaNalginato (s.m.)fibre d’alginate (n.f.)\\nalginate (n.m.)NaNalxinato (s.m.)\\nfibra de alxinato (s.f.)alginato (s.m.)\\nfibra algínica (s.f.)\\nfibra ...alginat (s.n.)\\nfibră alginică (s.f.)alginate\\nalginic fibre\\nalginate fibre
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" ], "text/plain": [ " it \\\n", "0 abaca (s.m.)\\nfibra di abaca (s.f.)\\ncanapa di... \n", "1 acetato (s.m.)\\nfibra di acetato (s.f.) \n", "2 acrilico (s.m.)\\nfibra acrilica (s.f.)\\nacrili... \n", "3 alfa (s.f.)\\nfibra d’alfa (s.f.) \n", "4 alginica (s.f.)\\nfibra alginica (s.f.) \n", "\n", " DEF \\\n", "0 Fibra ottenuta dalle foglie della Musa textilis. \n", "1 Fibra prodotta a partire dall’acetato di cellu... \n", "2 Fibra costituita da macromolecole lineari cont... \n", "3 Fibra ricavata dalle foglie della Stipa tenaci... \n", "4 Fibra prodotta a partire dai sali metallici de... \n", "\n", " ca \\\n", "0 abacà (n.m.)\\nfibra d’abacà (n.f.)\\ncànem de M... \n", "1 raió (n.m.)\\nfibra d’acetat (n.f.) \n", "2 acrílic, -a (adj.)\\nfibra acrílica (n.f.) \n", "3 espart (n.m.)\\nfibra d’espart (n.f.) \n", "4 fibra d’alginat (n.f.) \n", "\n", " es \\\n", "0 abacá (s.m.)\\nfibra de abacá (s.f.)\\ncáñamo de... \n", "1 acetato (s.m.) \\nrayón acetato (s.m.) \n", "2 acrílica (s.f.)\\nfibra acrílica (s.f.) \n", "3 esparto (s.m.) \\nfibra de esparto (s.f.) \n", "4 fibra algínica (s.f.)\\nfibra de alginato (s.f.) \n", "\n", " es [ARG] es [ARG/MEX] \\\n", "0 NaN NaN \n", "1 rayón (s.m.)\\nviscosa (s.f.) fibra de acetato (s.f.) \n", "2 NaN acrílico (s.m.) \n", "3 NaN fibra alfa (s.f.) \n", "4 NaN NaN \n", "\n", " es [MEX] \\\n", "0 abacá de Manila (s.m.) \n", "1 NaN \n", "2 fibra de acrílico (s.f.) \n", "3 alfa (s.m.) \n", "4 alginato (s.m.) \n", "\n", " fr \\\n", "0 abaca (n.m.)\\nchanvre de Manille (n.m.)\\ntagal... \n", "1 acétate (n.m.) \\nfibre d’acétate (n.f.) \n", "2 acrylique (n.m.)\\nfibre acrylique (n.f.) \n", "3 alfa (n.m.) \n", "4 fibre d’alginate (n.f.)\\nalginate (n.m.) \n", "\n", " fr [CA] \\\n", "0 fibre d’abaca (n.f.)\\nmanille (n.f.) \n", "1 NaN \n", "2 NaN \n", "3 sparte (n.m.)\\nspart (n.m.) \n", "4 NaN \n", "\n", " gl \\\n", "0 abacá (s.m.)\\ncánabo de Manila (s.m.) \n", "1 acetato (s.m.)\\nfibra de acetato (s.f.) \n", "2 acrílico (s.m.)\\nfibra acrílica (s.f.) \n", "3 alfa (s.f.)\\nesparto (s.m.) \n", "4 alxinato (s.m.)\\nfibra de alxinato (s.f.) \n", "\n", " pt \\\n", "0 abacá (s.m.)\\nmanila (s.f.)\\ncânhamo-de-manila... \n", "1 acetato (s.m.)\\nfibra de acetato (s.f.) \\nraio... \n", "2 acrílico (s.m.)\\nfibra acrílica (s.f.) \n", "3 alfa (s.f.)\\nfibra de alfa (s.f.) \n", "4 alginato (s.m.)\\nfibra algínica (s.f.)\\nfibra ... \n", "\n", " ro \\\n", "0 abaca (s.f.) \n", "1 acetat (s.m.) \n", "2 acrilic (s.m.) \n", "3 alfa (s.m.)\\nfibră alfa (s.f.) \n", "4 alginat (s.n.)\\nfibră alginică (s.f.) \n", "\n", " en \n", "0 abaca\\nabaca fibre\\nManila hemp \n", "1 acetate\\nacetate fibre \n", "2 acrylic\\nacrylic fibre \n", "3 alfa\\nalfa fibre \n", "4 alginate\\nalginic fibre\\nalginate fibre " ] }, "execution_count": 5, "metadata": {}, "output_type": "execute_result" } ], "source": [ "df_data.head()" ] }, { "cell_type": "code", "execution_count": 6, "id": "native-judges", "metadata": {}, "outputs": [], "source": [ "df_data.rename(columns = {'es [ARG]': 'es-arg', 'es [MEX]': 'es-mex', 'fr [CA]': 'fr-ca'}, inplace = True)\n", "#df_data.head()" ] }, { "cell_type": "code", "execution_count": 7, "id": "united-samoa", "metadata": {}, "outputs": [ { "data": { "text/plain": [ "'abaca'" ] }, "execution_count": 7, "metadata": {}, "output_type": "execute_result" } ], "source": [ "df_data.iloc[0].it.split('\\n')[0].split(' ')[0]" ] }, { "cell_type": "markdown", "id": "indonesian-curtis", "metadata": {}, "source": [ "Create a graph for the SKOS data and bind the namespaces to it" ] }, { "cell_type": "code", "execution_count": 23, "id": "parallel-bible", "metadata": {}, "outputs": [], "source": [ "c1rdf = rdflib.Graph()\n", "c1rdf.bind(\"pltextile\", pltextile)\n", "c1rdf.bind(\"dc11\", dc11)\n", "c1rdf.bind(\"dct\", dct)\n", "c1rdf.bind(\"iso369-3\", iso369)\n", "c1rdf.bind(\"skos\", SKOS)\n", "c1rdf.bind(\"dc\", DC)\n", "c1rdf.bind(\"rdf\", RDF)\n", "c1rdf.bind(\"owl\", OWL)\n", "c1rdf.bind(\"xsd\", XSD)\n" ] }, { "cell_type": "markdown", "id": "quantitative-integer", "metadata": {}, "source": [ "Insert in the graph the *SKOS.ConceptScheme*" ] }, { "cell_type": "code", "execution_count": 24, "id": "protective-anxiety", "metadata": {}, "outputs": [ { "data": { "text/plain": [ ")>" ] }, "execution_count": 24, "metadata": {}, "output_type": "execute_result" } ], "source": [ "now = datetime.datetime.today()\n", "today_date=now.date()\n", "title=Literal(conf['Texts']['LESSICOTITLE'], lang=conf['Texts']['LANG'])\n", "description=Literal(conf['Texts']['LESSICODESCRIPTION'], lang=conf['Texts']['LANG'])\n", "description_it=Literal(conf['Texts']['LESSICODESCRIPTION_IT'], lang='it')\n", "identifier=Literal(conf['Texts']['LESSICOID'], lang=conf['Texts']['LANG'])\n", "#identifier=URIRef(conf['Texts']['VOCABULARYID'])\n", "createddate= Literal(conf['Texts']['LESSICOCREATEDATE'],datatype=XSD.date)\n", "moddate= Literal(today_date,datatype=XSD.date)\n", "version= Literal(conf['Texts']['LESSICOVERSION'],datatype=XSD.string)\n", "\n", "c1rdf.add((pltextile[''], RDF.type, SKOS.ConceptScheme))\n", "c1rdf.add((pltextile[''], DC.title, title))\n", "c1rdf.add((pltextile[''], DC.identifier, identifier))\n", "c1rdf.add((pltextile[''], DC.description, description))\n", "c1rdf.add((pltextile[''], DC.description, description_it))\n", "c1rdf.add((pltextile[''], dct.created, createddate))\n", "c1rdf.add((pltextile[''], dct.modified, moddate))\n", "c1rdf.add((pltextile[''], OWL.versionInfo, version))\n", "c1rdf.add((pltextile[''], dct.language, iso369.eng))\n", "c1rdf.add((pltextile[''], dct.language, iso369.es))\n", "c1rdf.add((pltextile[''], dct.language, iso369.fra))\n", "c1rdf.add((pltextile[''], dct.language, iso369.gl))\n", "c1rdf.add((pltextile[''], dct.language, iso369.ita))\n", "c1rdf.add((pltextile[''], dct.language, iso369.ro))\n", "c1rdf.add((pltextile[''], dct.language, iso369.pt))\n", "c1rdf.add((pltextile[''], dct.language, iso369.ca))" ] }, { "cell_type": "code", "execution_count": 25, "id": "vertical-election", "metadata": {}, "outputs": [ { "data": { "text/html": [ "
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itDEFcaeses-arges [ARG/MEX]es-mexfrfr-caglptroen
0abaca (s.m.)\\nfibra di abaca (s.f.)\\ncanapa di...Fibra ottenuta dalle foglie della Musa textilis.abacà (n.m.)\\nfibra d’abacà (n.f.)\\ncànem de M...abacá (s.m.)\\nfibra de abacá (s.f.)\\ncáñamo de...abacá de Manila (s.m.)abaca (n.m.)\\nchanvre de Manille (n.m.)\\ntagal...fibre d’abaca (n.f.)\\nmanille (n.f.)abacá (s.m.)\\ncánabo de Manila (s.m.)abacá (s.m.)\\nmanila (s.f.)\\ncânhamo-de-manila...abaca (s.f.)abaca\\nabaca fibre\\nManila hemp
1acetato (s.m.)\\nfibra di acetato (s.f.)Fibra prodotta a partire dall’acetato di cellu...raió (n.m.)\\nfibra d’acetat (n.f.)acetato (s.m.) \\nrayón acetato (s.m.)rayón (s.m.)\\nviscosa (s.f.)fibra de acetato (s.f.)acétate (n.m.) \\nfibre d’acétate (n.f.)acetato (s.m.)\\nfibra de acetato (s.f.)acetato (s.m.)\\nfibra de acetato (s.f.) \\nraio...acetat (s.m.)acetate\\nacetate fibre
2acrilico (s.m.)\\nfibra acrilica (s.f.)\\nacrili...Fibra costituita da macromolecole lineari cont...acrílic, -a (adj.)\\nfibra acrílica (n.f.)acrílica (s.f.)\\nfibra acrílica (s.f.)acrílico (s.m.)fibra de acrílico (s.f.)acrylique (n.m.)\\nfibre acrylique (n.f.)acrílico (s.m.)\\nfibra acrílica (s.f.)acrílico (s.m.)\\nfibra acrílica (s.f.)acrilic (s.m.)acrylic\\nacrylic fibre
3alfa (s.f.)\\nfibra d’alfa (s.f.)Fibra ricavata dalle foglie della Stipa tenaci...espart (n.m.)\\nfibra d’espart (n.f.)esparto (s.m.) \\nfibra de esparto (s.f.)fibra alfa (s.f.)alfa (s.m.)alfa (n.m.)sparte (n.m.)\\nspart (n.m.)alfa (s.f.)\\nesparto (s.m.)alfa (s.f.)\\nfibra de alfa (s.f.)alfa (s.m.)\\nfibră alfa (s.f.)alfa\\nalfa fibre
4alginica (s.f.)\\nfibra alginica (s.f.)Fibra prodotta a partire dai sali metallici de...fibra d’alginat (n.f.)fibra algínica (s.f.)\\nfibra de alginato (s.f.)alginato (s.m.)fibre d’alginate (n.f.)\\nalginate (n.m.)alxinato (s.m.)\\nfibra de alxinato (s.f.)alginato (s.m.)\\nfibra algínica (s.f.)\\nfibra ...alginat (s.n.)\\nfibră alginică (s.f.)alginate\\nalginic fibre\\nalginate fibre
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" ], "text/plain": [ " it \\\n", "0 abaca (s.m.)\\nfibra di abaca (s.f.)\\ncanapa di... \n", "1 acetato (s.m.)\\nfibra di acetato (s.f.) \n", "2 acrilico (s.m.)\\nfibra acrilica (s.f.)\\nacrili... \n", "3 alfa (s.f.)\\nfibra d’alfa (s.f.) \n", "4 alginica (s.f.)\\nfibra alginica (s.f.) \n", "\n", " DEF \\\n", "0 Fibra ottenuta dalle foglie della Musa textilis. \n", "1 Fibra prodotta a partire dall’acetato di cellu... \n", "2 Fibra costituita da macromolecole lineari cont... \n", "3 Fibra ricavata dalle foglie della Stipa tenaci... \n", "4 Fibra prodotta a partire dai sali metallici de... \n", "\n", " ca \\\n", "0 abacà (n.m.)\\nfibra d’abacà (n.f.)\\ncànem de M... \n", "1 raió (n.m.)\\nfibra d’acetat (n.f.) \n", "2 acrílic, -a (adj.)\\nfibra acrílica (n.f.) \n", "3 espart (n.m.)\\nfibra d’espart (n.f.) \n", "4 fibra d’alginat (n.f.) \n", "\n", " es \\\n", "0 abacá (s.m.)\\nfibra de abacá (s.f.)\\ncáñamo de... \n", "1 acetato (s.m.) \\nrayón acetato (s.m.) \n", "2 acrílica (s.f.)\\nfibra acrílica (s.f.) \n", "3 esparto (s.m.) \\nfibra de esparto (s.f.) \n", "4 fibra algínica (s.f.)\\nfibra de alginato (s.f.) \n", "\n", " es-arg es [ARG/MEX] \\\n", "0 \n", "1 rayón (s.m.)\\nviscosa (s.f.) fibra de acetato (s.f.) \n", "2 acrílico (s.m.) \n", "3 fibra alfa (s.f.) \n", "4 \n", "\n", " es-mex \\\n", "0 abacá de Manila (s.m.) \n", "1 \n", "2 fibra de acrílico (s.f.) \n", "3 alfa (s.m.) \n", "4 alginato (s.m.) \n", "\n", " fr \\\n", "0 abaca (n.m.)\\nchanvre de Manille (n.m.)\\ntagal... \n", "1 acétate (n.m.) \\nfibre d’acétate (n.f.) \n", "2 acrylique (n.m.)\\nfibre acrylique (n.f.) \n", "3 alfa (n.m.) \n", "4 fibre d’alginate (n.f.)\\nalginate (n.m.) \n", "\n", " fr-ca \\\n", "0 fibre d’abaca (n.f.)\\nmanille (n.f.) \n", "1 \n", "2 \n", "3 sparte (n.m.)\\nspart (n.m.) \n", "4 \n", "\n", " gl \\\n", "0 abacá (s.m.)\\ncánabo de Manila (s.m.) \n", "1 acetato (s.m.)\\nfibra de acetato (s.f.) \n", "2 acrílico (s.m.)\\nfibra acrílica (s.f.) \n", "3 alfa (s.f.)\\nesparto (s.m.) \n", "4 alxinato (s.m.)\\nfibra de alxinato (s.f.) \n", "\n", " pt \\\n", "0 abacá (s.m.)\\nmanila (s.f.)\\ncânhamo-de-manila... \n", "1 acetato (s.m.)\\nfibra de acetato (s.f.) \\nraio... \n", "2 acrílico (s.m.)\\nfibra acrílica (s.f.) \n", "3 alfa (s.f.)\\nfibra de alfa (s.f.) \n", "4 alginato (s.m.)\\nfibra algínica (s.f.)\\nfibra ... \n", "\n", " ro \\\n", "0 abaca (s.f.) \n", "1 acetat (s.m.) \n", "2 acrilic (s.m.) \n", "3 alfa (s.m.)\\nfibră alfa (s.f.) \n", "4 alginat (s.n.)\\nfibră alginică (s.f.) \n", "\n", " en \n", "0 abaca\\nabaca fibre\\nManila hemp \n", "1 acetate\\nacetate fibre \n", "2 acrylic\\nacrylic fibre \n", "3 alfa\\nalfa fibre \n", "4 alginate\\nalginic fibre\\nalginate fibre " ] }, "execution_count": 25, "metadata": {}, "output_type": "execute_result" } ], "source": [ "#c1rdf.serialize(destination='data/skostest.rdf', format=\"n3\");#format=\"pretty-xml\")\n", "#comrdf.serialize(destination='data/parsed_rdf/prima_cantica_forme_com.rdf', format=\"n3\");\n", "df_data.fillna('', inplace=True)\n", "df_data.head()" ] }, { "cell_type": "markdown", "id": "assigned-beijing", "metadata": {}, "source": [ "The following cell implements the mapping rules for creating SKOS resources." ] }, { "cell_type": "code", "execution_count": 26, "id": "typical-prompt", "metadata": {}, "outputs": [ { "name": "stdout", "output_type": "stream", "text": [ "1668\n" ] } ], "source": [ "#df_data.iloc[0].it.split('\\n')[0].split(' ')[0]\n", "for index, row in df_data.iterrows():\n", " \n", " strlabel=row.it.split('\\n')[0].split(' (')[0].strip()\n", " label=strlabel.replace(\" \", \"_\")\n", " #label=URIRef(row.it.split('\\n')[0].split(' (')[0].strip())\n", " c1rdf.add((pltextile[''], SKOS.hasTopConcept, pltextile[label])) \n", " frlabel=Literal(row[\"fr\"].split('\\n')[0].strip(), lang='fr')\n", " fraltlabels=row[\"fr\"].split('\\n')[1:]\n", " itlabel=Literal(row['it'].split('\\n')[0].strip(), lang='it')\n", " italtlabels=row[\"it\"].split('\\n')[1:] \n", " calabel=Literal(row['ca'].split('\\n')[0].strip(), lang='ca')\n", " caaltlabels=row[\"ca\"].split('\\n')[1:]\n", " eslabel=Literal(row['es'].split('\\n')[0].strip(), lang='es')\n", " esaltlabels=row[\"es\"].split('\\n')[1:]\n", " gllabel=Literal(row['gl'].split('\\n')[0].strip(), lang='gl')\n", " glaltlabels=row[\"gl\"].split('\\n')[1:]\n", " ptlabel=Literal(row['pt'].split('\\n')[0].strip(), lang='pt')\n", " ptaltlabels=row[\"pt\"].split('\\n')[1:]\n", " rolabel=Literal(row['ro'].split('\\n')[0].strip(), lang='ro')\n", " roaltlabels=row[\"ro\"].split('\\n')[1:]\n", " enlabel=Literal(row['en'].split('\\n')[0].strip(), lang='en')\n", " enaltlabels=row[\"en\"].split('\\n')[1:]\n", " \n", " esarglabel=Literal(row['es-arg'].split('\\n')[0].strip(), lang='es-ar')\n", " esargaltlabels=row[\"es-arg\"].split('\\n')[1:]\n", " #es-arg-mex\n", "# esargmexarglabel=Literal(row['es-arg-mex'].split('\\n')[0].strip(), lang='es-ar')\n", "# esargmexmexlabel=Literal(row['es-arg-mex'].split('\\n')[0].strip(), lang='es-mx')\n", "# esargmexaltlabels=row[\"es-arg-mex\"].split('\\n')[1:]\n", " \n", " esmexlabel=Literal(row['es-mex'].split('\\n')[0].strip(), lang='es-mx')\n", " esmexaltlabels=row[\"es-mex\"].split('\\n')[1:]\n", " frcalabel=Literal(row['fr-ca'].split('\\n')[0].strip(), lang='fr-ca')\n", " frcaaltlabels=row[\"fr-ca\"].split('\\n')[1:]\n", " \n", " #definition\n", " itdef=Literal(row[\"DEF\"].strip(), lang='it')\n", " \n", " c1rdf.add((pltextile[label], RDF.type, SKOS.Concept))\n", " c1rdf.add((pltextile[label], SKOS.inScheme, pltextile['']))\n", " c1rdf.add((pltextile[label], SKOS.topConceptOf, pltextile['']))\n", " \n", " for alab in esargaltlabels:\n", " c1rdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='es-ar')))\n", " \n", "# for alab in esargmexaltlabels:\n", "# c1rdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='es-ar')))\n", "# c1rdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='es-mx')))\n", " \n", " for alab in esmexaltlabels:\n", " c1rdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='es-mx')))\n", " \n", " for alab in frcaaltlabels:\n", " c1rdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='fr-ca')))\n", " \n", " for alab in esaltlabels:\n", " c1rdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='es')))\n", " \n", " for alab in glaltlabels:\n", " c1rdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='gl')))\n", " \n", " for alab in ptaltlabels:\n", " c1rdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='pt')))\n", " \n", " for alab in roaltlabels:\n", " c1rdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='ro')))\n", " \n", " for alab in enaltlabels:\n", " c1rdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='en')))\n", " \n", " for alab in caaltlabels:\n", " c1rdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='ca')))\n", " \n", " for alab in fraltlabels:\n", " #print (\"tt \"+alab)\n", " c1rdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='fr')))\n", " for alab in italtlabels:\n", " c1rdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='it')))\n", " \n", " \n", " if(frlabel):\n", " c1rdf.add((pltextile[label], SKOS.prefLabel, frlabel))\n", " if(itlabel):\n", " c1rdf.add((pltextile[label], SKOS.prefLabel, itlabel))\n", " if(gllabel):\n", " c1rdf.add((pltextile[label], SKOS.prefLabel, gllabel))\n", " \n", " if(ptlabel):\n", " c1rdf.add((pltextile[label], SKOS.prefLabel, ptlabel))\n", " if(rolabel):\n", " c1rdf.add((pltextile[label], SKOS.prefLabel, rolabel))\n", " if(enlabel):\n", " c1rdf.add((pltextile[label], SKOS.prefLabel, enlabel))\n", " \n", " if(calabel): \n", " c1rdf.add((pltextile[label], SKOS.prefLabel, calabel))\n", " if(eslabel): \n", " c1rdf.add((pltextile[label], SKOS.prefLabel, eslabel))\n", " if(esarglabel):\n", " c1rdf.add((pltextile[label], SKOS.prefLabel, esarglabel))\n", " \n", "# if(esargmexarglabel):\n", "# c1rdf.add((pltextile[label], SKOS.prefLabel, esargmexarglabel))\n", "# c1rdf.add((pltextile[label], SKOS.prefLabel, esargmexmexlabel))\n", " \n", " if(esmexlabel):\n", " c1rdf.add((pltextile[label], SKOS.prefLabel, esmexlabel))\n", " if(frcalabel):\n", " c1rdf.add((pltextile[label], SKOS.prefLabel, frcalabel))\n", " \n", " if (itdef):\n", " c1rdf.add((pltextile[label], SKOS.definition, itdef))\n", "\n", "print(len(c1rdf))" ] }, { "cell_type": "code", "execution_count": 27, "id": "answering-latino", "metadata": {}, "outputs": [], "source": [ "# for s, p, o in c1rdf.triples((None, None, None)):\n", "# print(\"{} {}\".format(s, o.n3))" ] }, { "cell_type": "markdown", "id": "quality-scratch", "metadata": {}, "source": [ "Create a *Turtle* file in the **/data** directory with the SKOS resources for **Data Stewardship terminology** " ] }, { "cell_type": "code", "execution_count": 28, "id": "equal-voice", "metadata": {}, "outputs": [], "source": [ "c1rdf.serialize(destination='data/lexpanlatskos_11.ttl', format=\"n3\");#format=\"pretty-xml\")\n", "c1rdf.serialize(destination='data/lexpanlatskos_11.rdf', format=\"pretty-xml\");#format=\"pretty-xml\")" ] }, { "cell_type": "markdown", "id": "selected-enemy", "metadata": {}, "source": [ "### Lessico panlatino delle Maniche" ] }, { "cell_type": "code", "execution_count": 29, "id": "current-material", "metadata": {}, "outputs": [], "source": [ "urlma=conf['Source']['LESSICOMANICHESOURCE']\n", "df_data_maniche=pd.read_csv(urlma)\n", "df_data_maniche.rename(columns = {'es [ARG]': 'es-arg', 'es [MEX]': 'es-mex', 'pt [BR]': 'pt-br'}, inplace = True)\n", "df_data_maniche.fillna('', inplace=True)\n", "#df_data_maniche.info()" ] }, { "cell_type": "code", "execution_count": 31, "id": "incorporated-creature", "metadata": {}, "outputs": [ { "data": { "text/plain": [ ")>" ] }, "execution_count": 31, "metadata": {}, "output_type": "execute_result" } ], "source": [ "cl_manicherdf = rdflib.Graph()\n", "cl_manicherdf.bind(\"pltextile\", pltextile)\n", "cl_manicherdf.bind(\"dc11\", dc11)\n", "cl_manicherdf.bind(\"dct\", dct)\n", "cl_manicherdf.bind(\"iso369-3\", iso369)\n", "cl_manicherdf.bind(\"skos\", SKOS)\n", "cl_manicherdf.bind(\"dc\", DC)\n", "cl_manicherdf.bind(\"rdf\", RDF)\n", "cl_manicherdf.bind(\"owl\", OWL)\n", "cl_manicherdf.bind(\"xsd\", XSD)\n", "now = datetime.datetime.today()\n", "today_date=now.date()\n", "title=Literal(conf['Texts']['LESSICOMANICHETITLE'], lang=conf['Texts']['LANG'])\n", "description=Literal(conf['Texts']['LESSICOMANICHEDESCRIPTION'], lang=conf['Texts']['LANG'])\n", "description_it=Literal(conf['Texts']['LESSICOMANICHEDESCRIPTION_IT'], lang='it')\n", "identifier=Literal(conf['Texts']['LESSICOMANICHEID'], lang=conf['Texts']['LANG'])\n", "#identifier=URIRef(conf['Texts']['VOCABULARYID'])\n", "createddate= Literal(conf['Texts']['LESSICOCREATEDATE'],datatype=XSD.date)\n", "moddate= Literal(today_date,datatype=XSD.date)\n", "version= Literal(conf['Texts']['LESSICOVERSION'],datatype=XSD.string)\n", "\n", "cl_manicherdf.add((pltextile[''], RDF.type, SKOS.ConceptScheme))\n", "cl_manicherdf.add((pltextile[''], DC.title, title))\n", "cl_manicherdf.add((pltextile[''], DC.identifier, identifier))\n", "cl_manicherdf.add((pltextile[''], DC.description, description))\n", "cl_manicherdf.add((pltextile[''], DC.description, description_it))\n", "cl_manicherdf.add((pltextile[''], dct.created, createddate))\n", "cl_manicherdf.add((pltextile[''], dct.modified, moddate))\n", "cl_manicherdf.add((pltextile[''], OWL.versionInfo, version))\n", "cl_manicherdf.add((pltextile[''], dct.language, iso369.eng))\n", "cl_manicherdf.add((pltextile[''], dct.language, iso369.es))\n", "cl_manicherdf.add((pltextile[''], dct.language, iso369.fra))\n", "cl_manicherdf.add((pltextile[''], dct.language, iso369.ca))\n", "cl_manicherdf.add((pltextile[''], dct.language, iso369.ita))\n", "cl_manicherdf.add((pltextile[''], dct.language, iso369.pt))" ] }, { "cell_type": "code", "execution_count": 32, "id": "modular-realtor", "metadata": {}, "outputs": [ { "name": "stdout", "output_type": "stream", "text": [ "597\n" ] } ], "source": [ "# Mapping\n", "for index, row in df_data_maniche.iterrows():\n", " \n", " strlabel=row.it.split('\\n')[0].split('(')[0].strip()\n", " label=strlabel.replace(\" \", \"_\").replace(\"’\",\"\").replace(\"'\",\"\").strip()\n", " #label=URIRef(row.it.split('\\n')[0].split(' (')[0].strip())\n", " cl_manicherdf.add((pltextile[''], SKOS.hasTopConcept, pltextile[label])) \n", " frlabel=Literal(row[\"fr\"].split('\\n')[0].strip(), lang='fr')\n", " fraltlabels=row[\"fr\"].split('\\n')[1:]\n", " itlabel=Literal(row['it'].split('\\n')[0].strip(), lang='it')\n", " italtlabels=row[\"it\"].split('\\n')[1:] \n", " calabel=Literal(row['ca'].split('\\n')[0].strip(), lang='ca')\n", " caaltlabels=row[\"ca\"].split('\\n')[1:]\n", " eslabel=Literal(row['es'].split('\\n')[0].strip(), lang='es')\n", " esaltlabels=row[\"es\"].split('\\n')[1:]\n", " #gllabel=Literal(row['gl'].split('\\n')[0].strip(), lang='gl')\n", " #glaltlabels=row[\"gl\"].split('\\n')[1:]\n", " ptlabel=Literal(row['pt'].split('\\n')[0].strip(), lang='pt')\n", " ptaltlabels=row[\"pt\"].split('\\n')[1:]\n", "# rolabel=Literal(row['ro'].split('\\n')[0].strip(), lang='ro')\n", "# roaltlabels=row[\"ro\"].split('\\n')[1:]\n", " enlabel=Literal(row['en'].split('\\n')[0].strip(), lang='en')\n", " enaltlabels=row[\"en\"].split('\\n')[1:]\n", " \n", " esarglabel=Literal(row['es-arg'].split('\\n')[0].strip(), lang='es-ar')\n", " esargaltlabels=row[\"es-arg\"].split('\\n')[1:]\n", " \n", "\n", " esmexlabel=Literal(row['es-mex'].split('\\n')[0].strip(), lang='es-mx')\n", " esmexaltlabels=row[\"es-mex\"].split('\\n')[1:]\n", " ptbrlabel=Literal(row['pt-br'].split('\\n')[0].strip(), lang='pt-br')\n", " ptbraltlabels=row[\"pt-br\"].split('\\n')[1:]\n", " \n", " #definition\n", " itdef=Literal(row[\"DEF\"].strip(), lang='it')\n", " \n", " cl_manicherdf.add((pltextile[label], RDF.type, SKOS.Concept))\n", " cl_manicherdf.add((pltextile[label], SKOS.inScheme, pltextile['']))\n", " cl_manicherdf.add((pltextile[label], SKOS.topConceptOf, pltextile['']))\n", " \n", " for alab in esargaltlabels:\n", " cl_manicherdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='es-ar')))\n", " \n", " \n", " for alab in esmexaltlabels:\n", " cl_manicherdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='es-mx')))\n", " \n", " for alab in ptbraltlabels:\n", " cl_manicherdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='pt-br')))\n", " \n", " for alab in esaltlabels:\n", " cl_manicherdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='es')))\n", " \n", "# for alab in glaltlabels:\n", "# cl_collirdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='gl')))\n", " \n", " for alab in ptaltlabels:\n", " cl_manicherdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='pt')))\n", " \n", "# for alab in roaltlabels:\n", "# cl_collirdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='ro')))\n", " \n", " for alab in enaltlabels:\n", " cl_manicherdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='en')))\n", " \n", " for alab in caaltlabels:\n", " cl_manicherdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='ca')))\n", " \n", " for alab in fraltlabels:\n", " #print (\"tt \"+alab)\n", " cl_manicherdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='fr')))\n", " for alab in italtlabels:\n", " cl_manicherdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='it')))\n", " \n", " \n", " if(frlabel):\n", " cl_manicherdf.add((pltextile[label], SKOS.prefLabel, frlabel))\n", " if(itlabel):\n", " cl_manicherdf.add((pltextile[label], SKOS.prefLabel, itlabel))\n", "# if(gllabel):\n", "# cl_manicherdf.add((pltextile[label], SKOS.prefLabel, gllabel))\n", " \n", " if(ptlabel):\n", " cl_manicherdf.add((pltextile[label], SKOS.prefLabel, ptlabel))\n", "# if(rolabel):\n", "# cl_manicherdf.add((pltextile[label], SKOS.prefLabel, rolabel))\n", " if(enlabel):\n", " cl_manicherdf.add((pltextile[label], SKOS.prefLabel, enlabel))\n", " \n", " if(calabel): \n", " cl_manicherdf.add((pltextile[label], SKOS.prefLabel, calabel))\n", " if(eslabel): \n", " cl_manicherdf.add((pltextile[label], SKOS.prefLabel, eslabel))\n", " if(esarglabel):\n", " cl_manicherdf.add((pltextile[label], SKOS.prefLabel, esarglabel))\n", " \n", "\n", " if(esmexlabel):\n", " cl_manicherdf.add((pltextile[label], SKOS.prefLabel, esmexlabel))\n", " if(ptbrlabel):\n", " cl_manicherdf.add((pltextile[label], SKOS.prefLabel, ptbrlabel))\n", " \n", " if (itdef):\n", " cl_manicherdf.add((pltextile[label], SKOS.definition, itdef))\n", "\n", "print(len(cl_manicherdf))" ] }, { "cell_type": "code", "execution_count": 33, "id": "matched-mustang", "metadata": {}, "outputs": [], "source": [ "cl_manicherdf.serialize(destination='data/lexpanlatmanicheskos_11.ttl', format=\"n3\");#format=\"pretty-xml\")\n", "cl_manicherdf.serialize(destination='data/lexpanlatmanicheskos_11.rdf', format=\"pretty-xml\");#format=\"pretty-xml\")" ] }, { "cell_type": "markdown", "id": "talented-making", "metadata": {}, "source": [ "### Lessico panlatino dei Colli" ] }, { "cell_type": "code", "execution_count": 34, "id": "centered-advantage", "metadata": {}, "outputs": [], "source": [ "urlco=conf['Source']['LESSICOCOLLISOURCE']\n", "df_data_colli=pd.read_csv(urlco)" ] }, { "cell_type": "code", "execution_count": 35, "id": "desperate-uruguay", "metadata": {}, "outputs": [], "source": [ "df_data_colli.rename(columns = {'es [ARG]': 'es-arg', 'es [MEX]': 'es-mex', 'pt [BR]': 'pt-br'}, inplace = True)\n", "df_data_colli.fillna('', inplace=True)\n", "#df_data_colli.head()" ] }, { "cell_type": "code", "execution_count": 36, "id": "magnetic-stake", "metadata": {}, "outputs": [], "source": [ "cl_collirdf = rdflib.Graph()\n", "cl_collirdf.bind(\"pltextile\", pltextile)\n", "cl_collirdf.bind(\"dc11\", dc11)\n", "cl_collirdf.bind(\"dct\", dct)\n", "cl_collirdf.bind(\"iso369-3\", iso369)\n", "cl_collirdf.bind(\"skos\", SKOS)\n", "cl_collirdf.bind(\"dc\", DC)\n", "cl_collirdf.bind(\"rdf\", RDF)\n", "cl_collirdf.bind(\"owl\", OWL)\n", "cl_collirdf.bind(\"xsd\", XSD)\n" ] }, { "cell_type": "markdown", "id": "hidden-purple", "metadata": {}, "source": [ "SKOS concept scheme" ] }, { "cell_type": "code", "execution_count": null, "id": "christian-paste", "metadata": {}, "outputs": [], "source": [ "now = datetime.datetime.today()\n", "today_date=now.date()\n", "title=Literal(conf['Texts']['LESSICOCOLLITITLE'], lang=conf['Texts']['LANG'])\n", "description=Literal(conf['Texts']['LESSICOCOLLIDESCRIPTION'], lang=conf['Texts']['LANG'])\n", "description_it=Literal(conf['Texts']['LESSICOCOLLIDESCRIPTION_IT'], lang='it')\n", "identifier=Literal(conf['Texts']['LESSICOCOLLIID'], lang=conf['Texts']['LANG'])\n", "#identifier=URIRef(conf['Texts']['VOCABULARYID'])\n", "createddate= Literal(conf['Texts']['LESSICOCREATEDATE'],datatype=XSD.date)\n", "moddate= Literal(today_date,datatype=XSD.date)\n", "version= Literal(conf['Texts']['LESSICOVERSION'],datatype=XSD.string)\n", "\n", "cl_collirdf.add((pltextile[''], RDF.type, SKOS.ConceptScheme))\n", "cl_collirdf.add((pltextile[''], DC.title, title))\n", "cl_collirdf.add((pltextile[''], DC.identifier, identifier))\n", "cl_collirdf.add((pltextile[''], DC.description, description))\n", "\n", "cl_collirdf.add((pltextile[''], dct.created, createddate))\n", "cl_collirdf.add((pltextile[''], dct.modified, moddate))\n", "cl_collirdf.add((pltextile[''], OWL.versionInfo, version))\n", "cl_collirdf.add((pltextile[''], dct.language, iso369.eng))\n", "cl_collirdf.add((pltextile[''], dct.language, iso369.es))\n", "cl_collirdf.add((pltextile[''], dct.language, iso369.fra))\n", "cl_collirdf.add((pltextile[''], dct.language, iso369.ita))\n", "cl_collirdf.add((pltextile[''], dct.language, iso369.pt))\n", "cl_collirdf.add((pltextile[''], dct.language, iso369.ca))" ] }, { "cell_type": "code", "execution_count": null, "id": "incorporate-difference", "metadata": {}, "outputs": [], "source": [ "# Mapping\n", "for index, row in df_data_colli.iterrows():\n", " \n", " strlabel=row.it.split('\\n')[0].split(' (')[0].strip()\n", " label=strlabel.replace(\" \", \"_\").replace(\"’\",\"\")\n", " #label=URIRef(row.it.split('\\n')[0].split(' (')[0].strip())\n", " cl_collirdf.add((pltextile[''], SKOS.hasTopConcept, pltextile[label])) \n", " frlabel=Literal(row[\"fr\"].split('\\n')[0].strip(), lang='fr')\n", " fraltlabels=row[\"fr\"].split('\\n')[1:]\n", " itlabel=Literal(row['it'].split('\\n')[0].strip(), lang='it')\n", " italtlabels=row[\"it\"].split('\\n')[1:] \n", " calabel=Literal(row['ca'].split('\\n')[0].strip(), lang='ca')\n", " caaltlabels=row[\"ca\"].split('\\n')[1:]\n", " eslabel=Literal(row['es'].split('\\n')[0].strip(), lang='es')\n", " esaltlabels=row[\"es\"].split('\\n')[1:]\n", " #gllabel=Literal(row['gl'].split('\\n')[0].strip(), lang='gl')\n", " #glaltlabels=row[\"gl\"].split('\\n')[1:]\n", " ptlabel=Literal(row['pt'].split('\\n')[0].strip(), lang='pt')\n", " ptaltlabels=row[\"pt\"].split('\\n')[1:]\n", "# rolabel=Literal(row['ro'].split('\\n')[0].strip(), lang='ro')\n", "# roaltlabels=row[\"ro\"].split('\\n')[1:]\n", " enlabel=Literal(row['en'].split('\\n')[0].strip(), lang='en')\n", " enaltlabels=row[\"en\"].split('\\n')[1:]\n", " \n", " esarglabel=Literal(row['es-arg'].split('\\n')[0].strip(), lang='es-ar')\n", " esargaltlabels=row[\"es-arg\"].split('\\n')[1:]\n", " \n", "\n", " esmexlabel=Literal(row['es-mex'].split('\\n')[0].strip(), lang='es-mx')\n", " esmexaltlabels=row[\"es-mex\"].split('\\n')[1:]\n", " ptbrlabel=Literal(row['pt-br'].split('\\n')[0].strip(), lang='pt-br')\n", " ptbraltlabels=row[\"pt-br\"].split('\\n')[1:]\n", " \n", " #definition\n", " itdef=Literal(row[\"DEF\"].strip(), lang='it')\n", " \n", " cl_collirdf.add((pltextile[label], RDF.type, SKOS.Concept))\n", " cl_collirdf.add((pltextile[label], SKOS.inScheme, pltextile['']))\n", " cl_collirdf.add((pltextile[label], SKOS.topConceptOf, pltextile['']))\n", " \n", " for alab in esargaltlabels:\n", " cl_collirdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='es-ar')))\n", " \n", " \n", " for alab in esmexaltlabels:\n", " cl_collirdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='es-mx')))\n", " \n", " for alab in ptbraltlabels:\n", " cl_collirdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='pt-br')))\n", " \n", " for alab in esaltlabels:\n", " cl_collirdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='es')))\n", " \n", "# for alab in glaltlabels:\n", "# cl_collirdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='gl')))\n", " \n", " for alab in ptaltlabels:\n", " cl_collirdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='pt')))\n", " \n", "# for alab in roaltlabels:\n", "# cl_collirdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='ro')))\n", " \n", " for alab in enaltlabels:\n", " cl_collirdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='en')))\n", " \n", " for alab in caaltlabels:\n", " cl_collirdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='ca')))\n", " \n", " for alab in fraltlabels:\n", " #print (\"tt \"+alab)\n", " cl_collirdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='fr')))\n", " for alab in italtlabels:\n", " cl_collirdf.add((pltextile[label], SKOS.altLabel, Literal(alab, lang='it')))\n", " \n", " \n", " if(frlabel):\n", " cl_collirdf.add((pltextile[label], SKOS.prefLabel, frlabel))\n", " if(itlabel):\n", " cl_collirdf.add((pltextile[label], SKOS.prefLabel, itlabel))\n", "# if(gllabel):\n", "# cl_collirdf.add((pltextile[label], SKOS.prefLabel, gllabel))\n", " \n", " if(ptlabel):\n", " cl_collirdf.add((pltextile[label], SKOS.prefLabel, ptlabel))\n", "# if(rolabel):\n", "# cl_collirdf.add((pltextile[label], SKOS.prefLabel, rolabel))\n", " if(enlabel):\n", " cl_collirdf.add((pltextile[label], SKOS.prefLabel, enlabel))\n", " \n", " if(calabel): \n", " cl_collirdf.add((pltextile[label], SKOS.prefLabel, calabel))\n", " if(eslabel): \n", " cl_collirdf.add((pltextile[label], SKOS.prefLabel, eslabel))\n", " if(esarglabel):\n", " cl_collirdf.add((pltextile[label], SKOS.prefLabel, esarglabel))\n", " \n", "\n", " if(esmexlabel):\n", " cl_collirdf.add((pltextile[label], SKOS.prefLabel, esmexlabel))\n", " if(ptbrlabel):\n", " cl_collirdf.add((pltextile[label], SKOS.prefLabel, ptbrlabel))\n", " \n", " if (itdef):\n", " cl_collirdf.add((pltextile[label], SKOS.definition, itdef))\n", "\n", "print(len(cl_collirdf))" ] }, { "cell_type": "code", "execution_count": null, "id": "applicable-commissioner", "metadata": {}, "outputs": [], "source": [ "cl_collirdf.serialize(destination='data/lexpanlatcolliskos_11.ttl', format=\"n3\");#format=\"pretty-xml\")\n", "cl_collirdf.serialize(destination='data/lexpanlatcolliskos_11.rdf', format=\"pretty-xml\");#format=\"pretty-xml\")" ] }, { "cell_type": "code", "execution_count": null, "id": "limiting-duration", "metadata": {}, "outputs": [], "source": [] } ], "metadata": { "kernelspec": { "display_name": "Python 3 (ipykernel)", "language": "python", "name": "python3" }, "language_info": { "codemirror_mode": { "name": "ipython", "version": 3 }, "file_extension": ".py", "mimetype": "text/x-python", "name": "python", "nbconvert_exporter": "python", "pygments_lexer": "ipython3", "version": "3.11.1" } }, "nbformat": 4, "nbformat_minor": 5 }