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**/*/node_modules
/node_modules/
/coverage
.yarn
.yarn/*
venv
etalab_data/**/*.json
etalab_data/**/*.geojson
etalab_data/**/*.csv

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GNU AFFERO GENERAL PUBLIC LICENSE
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# Wololo! Conversion de jeux de données geojson en tags OSM
Ce dépot propose des outils de conversion et de mise en qualité de jeux de données à partir de geojson ou de csv afin de les importer dans OpenStreetMap.
Pour réaliser les conversions de jeux de données ce dépot propose un ensemble de déclarations dans un simple objet JS.
# installation
utiliser npm, yarn ou pnpm
```bash
pnpm i
```
## Convertir le jeu de données des IRVE / Bornes de recharge
Pour récupérer le jeu de données pour les bornes elec et convertir le geojson en fichier osm, lancer le script bash
```bash
make irve
```
Export depuis overpass turbo dans OSM
https://overpass-turbo.eu/s/1yhY
## config
Configurer le filtre de département et les autres options dans convert_to_osm_tags.ts.
## utilisation
Après avoir bien installé les paquets et récupéré un fichier Geojson de données ouvertes, vous devez avoir une configuration de conversion, puis lancer le script principal de conversion.
```bash
ts-node convert_to_osm_tags.ts
```
Plusieurs options sont disponible pour affiner la conversion:
```
--source=chemin/mon_fichier.geojson
--department=12 (aucun filtre de département par défaut)
--engine=true (true par défaut)
--engine-config=mappingIssy2Roues (mappingIRVE par défaut)
--output-file=autre_nom_de_sortie.json
```
La sortie est filtrée selon le mappage donné et la zone de code postal de la config.
Vous obtenez un résultat converti en json dans le dossier /output. Il s'agit toujours d'un Geojson mais nettoyé selon votre convertisseur, il peut ensuite être converti en fichier osm à ajouter dans JOSM.
Pour le convertir, utiliser geojsontoosm, une dépendance du projet.
` geojsontoosm mon_fichier_converti.json > le_fichier_pour_josm.osm`
Ce projet a été réalisé pour l'intégration des bornes de recharge élec dans OSM à partir des données data gouv.
## Exemple parkings 2 roues d'Issy les moulineaux
Fichier de mapping: `mappings/converters/configIssy_OpenData_2roues.ts`
Fichier de données: `etalab_data/cyclabilité/issy_les_mx_cyclabilité.json`
Commande de conversion:
```bash
ts-node convert_to_osm_tags.ts --source=etalab_data/cyclabilité/issy_les_mx_cyclabilité.json --o
utput-file=issy_parking_2roues.json --engine-config=mappingIssy2Roues
```
Résultat: `output/my_converted_data_set__mappingIssy2Roues.json`[makefile](makefile)
# Projets d'intégrations de données
## Ajout d'un jeu de données et de sa conversion
[doc sur l'ajout d'un jeu de données](ajout_jeu_de_données.md)
## Tests
[doc sur les tests Jest](testing.md)
## Examen des jeux de données Osmose
Osmose permet la détection et suggestion de corrections de données dans OSM. On peut utiliser un export de ces données à la conversion d'un Mapper.
Pour cela, récupérez un jeu de données et utilisez le convertisseur Osmose de votre choix sur ces données afin d'en faire un nouveau jeu de données.
[doc sur l'ajout d'un jeu de données](ajout_jeu_de_données.md)
## Bornes de recharge - IRVE
Graphique des bornes de recharges à ajouter selon l'analyse Osmose:
[!https://osmose.openstreetmap.fr/en/issues/graph.png?item=8410](https://osmose.openstreetmap.fr/en/issues/graph.png?item=8410)
![graphique des bornes à ajouter](https://osmose.openstreetmap.fr/en/issues/graph.png?item=8410 "graphique")
* Tableau de conversion de l'open data:
https://wiki.openstreetmap.org/wiki/France/data.gouv.fr/Bornes_de_Recharge_pour_V%C3%A9hicules_%C3%89lectriques
# Ressources
Documentation website fait avec mkdocs:
`mkdocs serve` et aller sur http://localhost:8000
# Contactez l'auteur, contribuez
contact at cipherbliss.com
sur Mastodon : mastodon.cipherbliss.com/@tykayn
# Roadmap
## Correctifs sur les données ajoutées
## bornes de recharge
Corrections à mettre dans le mappeur [./mappings/converters/configIRVE.ts]() et à modifier par édition en masse dans JOSM.
* ne pas mettre ref si la valeur vaut "non concerné"
* convertir les "False" et "0" en "no" pour les clés
* authentication:none
* fee (désactivé, l'open data est trop pourrie pour l'utiliser)
* socket:type2_cable
* convertir les numéros de téléphone avec un préfixe international +33 si commençant par 0
Données possible d'intégrer en plus avec le même jeu de données:
* ne pas mettre ref:EU:EVSE si la valeur vaut "non concerné"
* ajouter les références européennes ref:EU:EVSE.
* l'accessibilité => wheelchair pour certaines valeurs limitées.
## projets à venir
### Toilettes publiques
### Défibrillateurs - DAE
### Centres de santé
### Bus

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module.exports = {
presets: [
['@babel/preset-env', {targets: {node: 'current'}}],
'@babel/preset-typescript',
],
};

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/**
build all files for departements from the dataset and the mapping engine
**/
const {exec} = require('child_process');
const execSync = require("child_process").execSync;
let min_department = 1;
const max_departement = 1
let enable_domtom = true;
// const max_departement = 95
function exec_command(command: string) {
console.log('=> command',
command
)
const result = execSync(command);
// convert and show the output.
console.log(result.toString("utf8"));
}
function build_department_geojson(department: string) {
let command = `ts-node convert_to_osm_tags.ts --department=${department}`;
console.log('command', command)
exec_command(command)
}
function convert_geojson_to_osm_for_department(department: string) {
let command = `geojsontoosm output/my_converted_data_set_filtered_zipcode_${department}.json > osm_output/bornes-irve-filetered-from-etalab-opendata_dep_${department}.osm`;
console.log('command', command)
exec_command(command)
}
for (let ii = min_department; ii <= max_departement; ii++) {
let departement = '' + ii
build_department_geojson(departement)
}
for (let ii = min_department; ii <= max_departement; ii++) {
let departement = '' + ii
convert_geojson_to_osm_for_department(departement)
}
// build_department_geojson('2A')
// convert_geojson_to_osm_for_department('2A')
// build_department_geojson('2B')
// convert_geojson_to_osm_for_department('2B')
if (enable_domtom) {
// départements corse et dom tom
let more_departements = ['2A', '2B'
, '971'
, '972'
, '973'
, '974'
, '975'
, '976']
more_departements.forEach((department => {
console.log(' mapping data for department ' + department)
let departement_string = '' + department
build_department_geojson(departement_string)
}))
more_departements.forEach((department => {
console.log('convert to osm ' + department)
let departement_string = '' + department
convert_geojson_to_osm_for_department(departement_string)
}))
}
/**
Numéro Départements Chef-lieu
01 Ain Bourg-en-Bresse
02 Aisne Laon
03 Allier Moulin
04 Alpes-de-Haute-Provence Digne
05 Hautes-Alpes Gap
06 Alpes-Maritimes Nice
07 Ardèche Privas
08 Ardennes Charleville-Mézières
09 Ariège Foix
10 Aube Troyes
11 Aude Carcassonne
12 Aveyron Rodez
13 Bouches-du-Rhône Marseille
14 Calvados Caen
15 Cantal Aurillac
16 Charente Angoulême
17 Charente-Maritime La Rochelle
18 Cher Bourges
19 Corrèze Tulle
21 Côte-d'Or Dijon
22 Côtes d'Armor Saint-Brieuc
23 Creuse Guéret
24 Dordogne Périgueux
25 Doubs Besançon
26 Drôme Valence
27 Eure Evreux
28 Eure-et-Loir Chartres
29 Finistère Quimper
30 Gard Nîmes
31 Haute-Garonne Toulouse
32 Gers Auch
33 Gironde Bordeaux
34 Hérault Montpellier
35 Ille-et-Vilaine Rennes
36 Indre Châteauroux
37 Indre-et-Loire Tours
38 Isère Grenoble
39 Jura Lons-le-Saunier
40 Landes Mont-de-Marsan
41 Loir-et-Cher Blois
42 Loire St-Étienne
43 Haute-Loire Le Puy
44 Loire-Atlantique Nantes
45 Loiret Orléans
46 Lot Cahors
47 Lot-et-Garonne Agen
48 Lozère Mende
49 Maine-et-Loire Angers
50 Manche St-
51 Marne Châlons-sur-Marne
52 Haute-Marne Chaumont
53 Mayenne Laval
54 Meurthe-et-Moselle Nancy
55 Meuse Bar-le-Duc
56 Morbihan Vannes
57 Moselle Metz
58 Nièvre Nevers
59 Nord Lille
60 Oise Beauvais
61 Orne Alençon
62 Pas-de-Calais Arras
63 Puy-de-Dôme Clermont-Ferrand
64 Pyrénées-Atlantiques Pau
65 Hautes-Pyrénées Tarbes
66 Pyrénées-Orientales Perpignan
67 Bas-Rhin Strasbourg
68 Haut-Rhin Colmar
69 Rhône Lyon
70 Haute-Saône Vesoul
71 Saône-et-Loire Mâcon
72 Sarthe Le Mans
73 Savoie Chambéry
74 Haute-Savoie Annecy
75 Paris Paris
76 Seine-Maritime Rouen
77 Seine-et-Marne Melun
78 Yvelines Versailles
79 Deux-Sèvres Niort
80 Somme Amiens
81 Tarn Albi
82 Tarn-et-Garonne Montauban
83 Var Toulon
84 Vaucluse Avignon
85 Vendée La Roche-sur-Yon
86 Vienne Poitiers
87 Haute-Vienne Limoges
88 Vosges Épinal
89 Yonne Auxerre
90 Territoire de Belfort Belfort
91 Essonne Evry
92 Hauts-de-Seine Nanterre
93 Seine-St-Denis Bobigny
94 Val-de-Marne Créteil
95 Val-D'Oise Pontoise
2A Corse-du-Sud Ajaccio
2B Haute-Corse Bastia
971 Guadeloupe Basse-Terre
972 Martinique Fort-de-France
973 Guyane Cayenne
974 La Réunion Saint-Denis
976 Mayotte Mamoudzou
**/

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/**
* convertisseur de données de bornes de recharge électrique à partir de données Chargemap et open data Etalab
*/
import * as fs from 'fs'
import mappingConfigIRVE from './mappings/converters/configIRVE'
import ConfigIRVE from './mappings/converters/configIRVE'
import mappingIssy2Roues from './mappings/converters/configIssy_OpenData_2roues'
import mappingConfigIRVEFromOsmose from './mappings/converters/configIRVE_osmose'
import mappingConfigIRVE_simple from './mappings/converters/mappingConfigIRVE_simple'
import mappingTest from './mappings/converters/configTest'
import mapping_engine from './mappings/engine'
import MappingConfigType, {BoundingBoxCoordinatesType, FeatureCollection} from "./mappings/mapping-config.type";
import utils from './mappings/utils'
import mappingRouenParkingVelos from "./mappings/converters/configRouen_OpenData_velo_parkings";
import mappingFINESS from "./mappings/converters/configFINESS";
import MappingArbresIssy from "./mappings/converters/configArbresIssy";
import MappingArbresEchirolles from "./mappings/converters/configArbresEchirolles";
import MappingArbres92 from "./mappings/converters/configArbresHautsDeSeine";
import MappingMuseums from "./mappings/converters/configMuseums";
import MappingRouenPAV from "./mappings/converters/configRouen_PAV";
import MappingAskAngela from "./mappings/converters/configAskAngela";
import MappingPlanningFamlial from "./mappings/converters/configPlanningFamilial";
import MappingSurveillanceRouen from "./mappings/converters/configSurveillance";
const limitWarningPercentageChangeInPoints = 5; // show a warning when more than N percent of the number of points changed
const allowed_configs: any = {
mappingIssy2Roues,
mappingConfigIRVE,
mappingConfigIRVEFromOsmose,
mappingConfigIRVE_simple,
mappingTest,
ConfigIRVE,
mappingRouenParkingVelos,
mappingFINESS,
MappingArbresIssy,
MappingArbresEchirolles,
MappingArbres92,
MappingMuseums,
MappingRouenPAV,
MappingAskAngela,
MappingPlanningFamlial,
MappingSurveillanceRouen
};
const minimist = require('minimist');
const debugLog = utils.debugLog;
let mini_arguments: any = minimist(process.argv.slice(2))
let use_mapping_engine = true
let output_supplement = '';
let sourceFilePathGeoJson = './data_other/' + output_supplement + '.json'
// wip filter
let filterOnBoundingBox = true
filterOnBoundingBox = false
let boundingBoxCoordinates: BoundingBoxCoordinatesType = {
xMin: 1.91,
xMax: 2.38,
yMin: 48.7,
yMax: 48.4,
}
let default_engine_conf_choice: string = 'ConfigIRVE'
let engine_conf_choice: string = 'ConfigIRVE'
let filterCoordinates = true
filterCoordinates = false
let enable_filter_on_department = true
enable_filter_on_department = false
let filterDepartment = 91
if (mini_arguments['department']) {
filterDepartment = mini_arguments['department']
enable_filter_on_department = true
}
let osmoseFormat = false;
if (mini_arguments['osmose']) {
osmoseFormat = mini_arguments['osmose']
}
if (mini_arguments['source']) {
sourceFilePathGeoJson = mini_arguments['source']
}
if (mini_arguments['engine']) {
use_mapping_engine = mini_arguments['engine']
}
if (mini_arguments['engine-config']) {
engine_conf_choice = mini_arguments['engine-config']
output_supplement += "_" + engine_conf_choice
}
let Mapping_engine: any;
let outname = 'converted_'
if (mini_arguments['output-file']) {
outname = mini_arguments['output-file'];
}
if (mini_arguments['outname']) {
outname = mini_arguments['outname'];
}
if (mini_arguments['testingConfig']) {
console.log('testing')
Mapping_engine = new mapping_engine(mappingTest)
} else if (osmoseFormat) {
console.log(' *********** we use osmose converter *********')
Mapping_engine = new mapping_engine(mappingConfigIRVEFromOsmose)
} else {
Mapping_engine = new mapping_engine(mappingConfigIRVE)
}
let filterZipCode = new RegExp(`^${filterDepartment}`)
let filterZipCodeAdresse = new RegExp(` ${filterDepartment}`)
let filteredName = ''
if (enable_filter_on_department) {
filteredName = '_filtered_zipcode_' + filterDepartment
} else if (filterOnBoundingBox) {
filteredName = '_filtered_bbox_' + boundingBoxCoordinates.xMin + '-' + boundingBoxCoordinates.xMax + '_' + boundingBoxCoordinates.yMin + '-' + boundingBoxCoordinates.yMax
}
let pointCounterMax: number = 1000000
let limitConversionToFirstPoint: boolean = false
// limitConversionToFirstPoint = true
if (limitConversionToFirstPoint) {
pointCounterMax = 1
}
let defaultPropertiesOfPoint: any = {
'amenity': 'charging_station'
}
let converted_geo_json: any = {
type: 'FeatureCollection',
features: []
}
let output_folder = 'output';
/**
* crée un fichier dans le dossier par défaut, output
* @param fileName
* @param fileContent
*/
function writeFile(fileName: string, fileContent: any) {
if (outname) {
fileName = '' + outname;
}
let write_path = `./${output_folder}/${fileName}`
debugLog("write file \n", fileName, write_path)
console.log("-------- write file \n", fileName, "\n", write_path)
return fs.writeFile(
write_path,
fileContent,
'utf8',
(err) => {
if (err) {
debugLog(`Error writing file: ${err}`)
} else {
debugLog(`File ${fileName} is written successfully!`)
}
}
)
}
/**
*
* @param sourceFilePath
* @param mapping
* @param pointCounterMax
* @param boundingBoxCoordinates
*/
function convertDataFromSource(sourceFilePath: string, mapping: MappingConfigType, pointCounterMax: number, boundingBoxCoordinates: any) {
debugLog('convert data: source file from :', sourceFilePath)
fs.readFile(sourceFilePath, 'utf8', function (err, data) {
let point_counter = 0
let feature_points_after_filter: any = []
if (err) {
debugLog('erreur à l ouverture du chemin ' + sourceFilePath)
return console.error(err)
}
let data_transformed: FeatureCollection = JSON.parse(data)
if (data_transformed.features) {
console.log('------ data found in source, features:', data_transformed.features.length)
// find interesting list of points to use
let list_of_points: any = data_transformed.features
debugLog('listOfPoints.length', list_of_points.length)
if (limitConversionToFirstPoint) {
debugLog('limitConversionToFirstPoint enabled')
if (mapping?.filters?.offset) {
mapping.filters.offset = 1
}
}
if (mapping?.filters?.offset) {
debugLog('filter offset enabled', mapping.filters.offset)
list_of_points = list_of_points.splice(0, mapping.filters.offset)
}
console.log('features count before:', list_of_points.length)
/**
* filtering
* run filters before mapping OSM tags
*/
if (mapping.filters) {
if (mapping.filters.exclude_point_if_tag_not_empty) {
list_of_points = Mapping_engine.filterListOfPointsByExcludingIfKeyFilled(list_of_points, mapping.filters.exclude_point_if_tag_not_empty)
}
if (mapping.filters.filter_points_lesser_than_NkW) {
list_of_points = Mapping_engine.filterListOfPointsByExcludingIfMaxPowerIsLesserThan(mapping.filters.filter_points_lesser_than_NkW, list_of_points)
}
}
// for each point from the data source, filter if we take it or not
list_of_points.forEach((feature_point: any) => {
let regex_filter_test_result = true
let remove_original_key = false;
// fix des jeux de données qui ne sont pas des geojson
let properties_list: any = []
if (feature_point.geo_point_2d) {
feature_point["type"] = "Feature"
feature_point["geometry"] = {
"coordinates": feature_point.geo_point_2d[0],
"type": "Point"
}
}
if (feature_point['properties']) {
properties_list = feature_point.properties
if (feature_point.properties['tags']) {
properties_list = feature_point.properties.tags
}
}
if (!feature_point["properties"]) {
console.log('jeu de données sans properties à la base. On tente un mapping interne...')
let properties_list_to_move: any = Object.keys(feature_point)
feature_point["properties"] = {}
properties_list_to_move.forEach((tagKey: string, tagValue: any) => {
feature_point["properties"][tagKey] = feature_point[tagKey]
})
}
// debug sur un offset de 1 seul point
// console.log('properties_list', properties_list)
/**
* exclusion des points sur un filtrage exclude_point_if_tag_not_empty
* utile pour les analyses comportant des points déjà présents dans osm qui ont un id_osm par exemple.
*/
let properties_keys = Object.keys(properties_list)
properties_keys.forEach((tagKey: string) => {
let tagValue = properties_list[tagKey]
if (mapping.filters?.exclude_point_if_tag_not_empty?.indexOf(tagKey) !== undefined && tagValue && tagValue !== null) {
// console.log('la clé est elle présente dans les filtres d exclusion?', tagKey, mapping.filters?.exclude_point_if_tag_not_empty?.indexOf(tagKey))
// console.log('tagValue', tagValue)
// console.log('remove original' , tagKey )
remove_original_key = true;
}
})
if (remove_original_key) {
return;
}
/**
* filtre sur les départements selon la propriété consolidated_code_postal ou adresse_station
*/
if (enable_filter_on_department) {
debugLog('filtre sur les départements activé')
regex_filter_test_result = (
filterZipCode.test(feature_point.properties.consolidated_code_postal)
||
filterZipCodeAdresse.test(feature_point.properties.adresse_station)
)
} else {
debugLog('pas de filtre sur les départements')
}
/**
* filtre sur un carré de coordonnées
*/
if (filterOnBoundingBox) {
debugLog('filtre sur les coordonnées bounding box activé')
let x = feature_point.properties.coordonneesXY[0]
let xMin = boundingBoxCoordinates.xMin
let xMax = boundingBoxCoordinates.xMax
let yMin = boundingBoxCoordinates.yMin
let yMax = boundingBoxCoordinates.yMax
let y = feature_point.properties.coordonneesXY[1]
regex_filter_test_result = (
(x >= xMin && x <= xMax)
&&
(y >= yMin && y <= yMax)
)
} else {
debugLog('pas de filtre sur les coordonnées bounding box')
}
// TODO add filter offset max
// filter points depending on zipcode
if (regex_filter_test_result) {
feature_points_after_filter.push(feature_point)
debugLog(' +1 point', point_counter)
point_counter++
}
})
/**
* conversion
*/
debugLog(' after filtering, feature_points_after_filter number of points: ', feature_points_after_filter.length)
feature_points_after_filter.forEach((feature_point: any) => {
debugLog('convert : work on 1 point')
let mapped_point: any = {}
if (use_mapping_engine) {
mapped_point = Mapping_engine.mapElementFromConf(feature_point)
debugLog('mapped_point', mapped_point)
} else {
debugLog('convert :using simple converter on feature point', feature_point)
mapped_point = mapElementFromConfSimple(feature_point, mapping)
}
if (mapped_point) {
converted_geo_json.features.push(mapped_point)
debugLog('convert : added one point to converted_geo_json')
} else {
debugLog('convert : !!! there is no map one point')
}
})
// output new geojson
debugLog('convert : convertedGeoJson.features.length', converted_geo_json.features.length)
console.log('converted_geo_json.features.length', converted_geo_json.features.length)
// write file on disk
if (converted_geo_json.features.length) {
if (output_supplement) {
output_supplement = '_' + output_supplement;
}
let fileNameToWrite = '_' + filteredName + output_supplement + '.geojson'
console.log('converted features:', converted_geo_json.features.length)
console.log('différences nombre de features: ', data_transformed.features.length - converted_geo_json.features.length)
const percentChange = (data_transformed.features.length) / 100 * converted_geo_json.features.length;
console.log('Changement de features', percentChange, '%')
if (percentChange > limitWarningPercentageChangeInPoints) {
console.log(' /!\\ pas mal de points en moins, plus de ' + percentChange + '%')
}
debugLog('convert : write file ', fileNameToWrite)
// console.log('mapping_engine.stats', Mapping_engine.stats)
console.log('mapping config name:', Mapping_engine.getConfig().config_name)
writeFile(fileNameToWrite, JSON.stringify(converted_geo_json, null, 2))
} else {
console.log('convert : no writing of file, because there is no converted feature')
}
return converted_geo_json
}
})
}
/**
* retuns the converted element from mapping config if present, null otherwise
*/
function mapElementFromConfSimple(featurePoint: any, mappingConfig: any) {
let mappingKeys = Object.keys(mappingConfig)
let featurePointPropertiesKeys = Object.keys(featurePoint.properties)
debugLog('keys', mappingKeys, featurePointPropertiesKeys)
let newProperties: any = defaultPropertiesOfPoint
// reinit properties of current point
let basePoint = Object.create(featurePoint)
basePoint.type = featurePoint.type
basePoint.geometry = featurePoint.geometry
basePoint.properties = newProperties
// apply new properties if found in mapping config
featurePointPropertiesKeys.forEach((pointKeyName: string) => {
if (mappingKeys.indexOf(pointKeyName) !== -1) {
// debugLog('found element', pointKeyName, '=>', mappingConfig[pointKeyName], 'value : ', featurePoint.properties[pointKeyName])
let convertedValue: any = ''
if (utils.isBooleanKey(pointKeyName)) {
let copyOfValue: any = '' + featurePoint.properties[pointKeyName]
if (typeof copyOfValue === typeof Object && copyOfValue.key_converted) {
copyOfValue = copyOfValue.key_converted
}
convertedValue = copyOfValue.toLowerCase() == 'true' ? 'yes' : 'no'
} else {
convertedValue = featurePoint.properties[pointKeyName]
}
if (convertedValue) {
let convertedKey: any = mappingConfig[pointKeyName]
newProperties[convertedKey] = convertedValue
}
}
})
debugLog('basePoint', basePoint)
return basePoint
}
function setMappingConfigFromName(engine_conf_choice: string) {
console.log('------- sourceFilePathGeoJson', sourceFilePathGeoJson)
console.log('------- engine_conf_choice', engine_conf_choice)
if (use_mapping_engine) {
debugLog(' - using mapping engine')
debugLog(' - pointCounterMax', pointCounterMax)
if (osmoseFormat) {
Mapping_engine.setConfig(mappingConfigIRVEFromOsmose)
} else {
if (engine_conf_choice !== default_engine_conf_choice && Object.keys(allowed_configs).indexOf("mappingIssy2Roues") !== -1) {
Mapping_engine.setConfig(allowed_configs[engine_conf_choice])
} else {
console.error('mauvais paramètre de Mapping_engine: ' + engine_conf_choice, '.\n Veuillez en sélectionner un parmi ceux autorisés avec l option --engine-config=MaConfigQuiVaBien parmi ceux ci :', Object.keys(allowed_configs))
return
}
}
let currentMappingConfig = Mapping_engine.getConfig();
convertDataFromSource(sourceFilePathGeoJson, currentMappingConfig, pointCounterMax, boundingBoxCoordinates)
} else {
console.log(' ------ on utilise mappingConfigIRVE_simple')
let mappingConfigIRVE = mappingConfigIRVE_simple
convertDataFromSource(sourceFilePathGeoJson, mappingConfigIRVE, pointCounterMax, boundingBoxCoordinates)
}
}
/**
* Launch conversion of dataset
*/
function init() {
setMappingConfigFromName(engine_conf_choice)
}
init()

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# Les extracteurs
Ces scripts permettent de récupérer des données sous licence ODBL depuis openstreetmap.
ils se trouvent dans mappings/extractors.
On peut les exécuter tous à la suite avec le script `run_all_extractors.sh`
```shell
bash update_scripts/run_all_extractors.sh
```

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# Ajout d'un jeu de données
Pour ajouter un jeu de données et sa conversion vous devrez faire un mapper et mettre le jeu de données dans le convertisseur.
Checklist:
- [] avoir un jeu de données de Points en Geojson à convertir, dans `etalab_data`, dans un dossier thématique (arbres, parking vélo, IRVE...).
- [] un convertisseur (Mapper) qui étend le type `MappingConfigType`
- [] une page de documentation markdown liée à ce jeu de données mentionnant une commande ts-node à lancer dans `docs`.
- [] noter l'url du jeu de données source dans `get_datasets.sh`
- [] ajouter l'import de ce Mapper dans `convert_to_osm_tags.ts`
- [] tester le rendu de la conversion en plaçant la sortie output dans JOSM.
## Récupérer un jeu de données
## Créer un Mapper
Créer un fichier ts dans mappings/converters qui expose un objet étendant `MappingConfigType`. Ici on fait un Mappeur qui ne changera qu'une seule clé en gardant toutes ses valeur, nom_amenageur sera converti en name.
```ts
export const mappingName: MappingConfigType = {
config_name: 'testing config mappingName',
config_author: 'tykayn <contact+geojson2osm@cipherbliss.com>',
default_properties_of_point: {},
tags: {
nom_amenageur : 'name'
},
add_not_mapped_tags_too: true,
source: {
geojson_path: '',
url: ''
},
filters: {},
}
```
Le détail complet des configurations de MappingConfigType est à voir dans la page [configuration_de_conversion.md]
## Ajouter le Mapper dans le point d'entrée de conversion
Choisir le jeu de données en changeant la configuration dans `convert_to_osm_tags.ts`.
Importer son Mapper dans `convert_to_osm_tags.ts` et le faire charger dans l'[Engine](engine.md) dans la partie qui réalise le chargement d'un Mapper.
Ajouter le nom du mapper dans le tableau `allowed_configs`, puis remplir une condition pour que l'Engine prenne le bon modèle de mapping.
# Debug
activer les logs dans le fichier des `utils.ts`.

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# Arbres
Des jeux de données sont disponibles pour lister les abres, suivre leur évolution, et mettre en avant les arbres monumentaux, dignes d'intérêt touristique.
## Issy les moulineaux
- ID_ARBRE : ref:FR:issy_les_mx:id_arbre
- CADUC_PERS : leaf_cycle=evergreen pour persistant , deciduous pour caduque
- HAUTEUR est_height=* hauteur estimée
- FEUIL_CONI : feuillu leaf_type=broadleaved / conifère leaf_type=needleleaved
- GENESPVAR : nom d'espèce species=*
- AN_PLANT : date_start
- VERNACULAIRE : species:FR=*
- PARTICULAR : Majeur, Remarquable : historic=monument
- FORME: tree_shape = curtain / free / half_free <= Architecturé, rideau / Libre / Semi-libre
# conversion
Abres d'issy les moulineaux
```bash
ts-node convert_to_osm_tags.ts --source=etalab_data/arbres/arbres_issy.geojson --output-file=arbres_issy.geojson --engine-config=MappingArbresIssy
```
Cadastre vert:
```bash
ts-node convert_to_osm_t
ags.ts --source=etalab_data/arbres/arbres_92.json --output-file=arbres_92.geojson --engine-config=MappingArbres92
```

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# Ask Angela, dispositif anti harcèlement
Les commerces et autres lieux adhérant au dispositif
# Conversion
## Conversion des données de Toulouse
```bash
ts-node convert_to_osm_tags.ts --source=etalab_data/askangela/toulouse_askangela.json --output-file=toulouse_askangela.json --engine-config=MappingAskAngela
```
## Conversion des données de Bordeaux
```bash
ts-node convert_to_osm_tags.ts --source=etalab_data/askangela/bordeaux_askangela.json --output-file=bordeaux_askangela.json --engine-config=MappingAskAngela
```
## Conversion des données de Poitiers
```bash
ts-node convert_to_osm_tags.ts --source=etalab_data/askangela/poitiers_askangela.json --output-file=poitiers_askangela.json --engine-config=MappingAskAngela
```
## Conversion des données de Lyon
```bash
ts-node convert_to_osm_tags.ts --source=etalab_data/askangela/lyon_askangela.json --output-file=lyon_askangela.json --engine-config=MappingAskAngela
```

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# Configuration de conversion
Ce fichier de configuration est utilisé pour convertir un jeu de données ouvertes en des données exploitables par des tags OpenStreetMap. Il décrit les règles de conversion pour chaque propriété des données ouvertes et les valeurs attendues pour chaque tag OpenStreetMap.
Structure du fichier de configuration
Le fichier de configuration est un objet JSON du type MappingConfigType qui contient les propriétés suivantes :
| Clé | Sous-clé | Sous-sous-clé | Description |
|-----------------------------|---------------------------| --- | --- |
| config_name | | | le nom de la configuration |
| config_author | | | le nom de l'auteur de la configuration avec son email entre chevrons |
| source | | | infos sur la provenance des données à convertir |
| source | geojson_path | | lien relatif dans ce dépôt vers le fichier téléchargé |
| source | url | | lien absolu de la source, sur le portail datagouv par exemple |
| add_not_mapped_tags_too | | | un boolean indiquant si les tags non détectés par la configuration doivent être ajoutés également aux points convertis |
| default_properties_of_point | | | un objet qui décrit les clés et valeur par défaut à mettre pour les points |
| filters | | | un objet qui décrit les filtres à appliquer aux données ouvertes |
| filters | enable_coordinates_filter | | booléen, permet d'activer un filtre sur les points se trouvant dans certaines coordonnées |
| filters | properties | | objet listant colonne et expression régulières pour ne garder que ce qui correspond |
| filters | properties | consolidated_code_postal | | exemple de regex pour trouver les points dont le code postal commence par 76 ou 27 : '^[76|27]' |
| filters | bounding_box | | tableau décrivant un rectangle de coordonnées: Xstart Ystart Xend Yend |
| filters | enable_properties_filter | | objet décrivant les regex à chercher sur certaines colonnes pour ne garder que les objets concernés |
| tags | | | un objet qui décrit les règles de conversion pour chaque tag OpenStreetMap |
# Propriétés de conversion des tags
Chaque clé donne une colonne du jeu de données à convertir en tag OSM, soit en conservant la valeur si on lui donne une simple chaîne de caractères en valeur, soit en lui apportant des modifications plus précises avec un objet en valeur.
Par exemple, nous avons un jeu de données sur les bornes de recharge électriques et leur numéro de SIREN est donné dans une colonne "siren_amenageur", dans OSM on utilisera une clé 'owner:ref:FR:SIREN'.
```json
{
"config_name": "IRVE config",
"tags": {
"siren_amenageur": "owner:ref:FR:SIREN"
}
}
```
Ce qui équivaut à une utilisation d'objet ainsi
```json
{
"config_name": "IRVE config",
"tags": {
"siren_amenageur": {
"key_converted":"owner:ref:FR:SIREN"
}
}
}
```
Les propriétés possibles sont:
| Clé | Description | Type | Valeur par défaut |
|------------------------------------|-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------| --- | --- |
| conditional_values | Valeurs conditionnelles, détail ci après | objet | null |
| convert_to_boolean_value | Convertit la valeur en booléen | boolean | false |
| convert_to_phone | Convertir en numéro de téléphone | boolean | false |
| ignore_if_falsy | Ignorer cette ligne si elle vaut false ou 0 | boolean | false |
| key_converted | Convertir en clé OSM | string | null |
| remove_original_key | Enlever la ligne | boolean | false |
| socket_output_find_correspondances | Chercher une puissance de socket pour borne de recharge électrique | boolean | false |
Exemple:
```json
{
"tags": {
"puissance_nominale": {
"key_converted": "charging_station:output",
"socket_output_find_correspondances": true
},
"accessibilite_pmr": {
"key_converted": "wheelchair",
"conditional_values": {
"Non accessible": {
"value_converted": "no"
},
"Réservé PMR": {
"value_converted": "yes"
}
}
}
}
}
```
## Valeurs conditionnelles conditional_values
Un objet décrivant par ses clés des comportements à faire selon la valeur donnée.
Propriétés:
| Clé | Description | Type | Valeur par défaut |
| --- |-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------| --- | --- |
| ignore_this_data | Ignorer, pour évacuer des valeurs indésirables | | |
| tags_to_add | Tags à ajouter | objet | |
| transform_function | Une fonction à appliquer à la valeur | | |
| convert_to_boolean_value | Convertit en 'yes' si la valeur est Truthy, et en 'no' si elle est Falsy. Et ne change pas la valeur si elle n'est ni Truthy ni Falsy. | | |
| value_converted | valeur à convertir | string ou number | |
| truthy_value | Convertir la valeur dans le cas où elle est Truthy. exemple: le jeu de données dit que la colonne cable_t2_attache vaut "True", mais on veut le convertir en "1". On met donc truthy_value: '1' | boolean | false |
| falsy_value | Convertir la valeur dans le cas où elle est Falsy, comme pour truthy_value. | boolean | false |
| invert_boolean_value | Inverser la valeur booléenne | boolean | false |
### Tags à ajouter
Quand on utilise la clé "tags_to_add", on lui met en valeur un tableau de tags OSM à ajouter.
Ici, ajout de trois tags si la valeur est `yes` pour `station_deux_roues`
```json
{
"tags": {
"station_deux_roues": {
"remove_original_key": true,
"conditional_values": {
"yes": {
"tags_to_add": [
{
"bicycle": "yes"
},
{
"scooter": "yes"
},
{
"motorcar": "no"
}
]
}
}
}
}
}
```

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# Deviner les correspondances
Dans un Geojson on peut deviner à quel tag correspondent les propriétés des points de la Feature collection pour créer ses modèles de Mapper.
Examinez un geojson avec le script `propose_mapping_from_data.py`:
```shell
# exemple avec un jeu de données de musée
python propose_mapping_from_data.py etalab_data/musées/fr.geojson
```
Ce qui donne:
```json
{
"Identifiant Mus\u00e9ofile": "",
"R\u00e9gion administrative": "",
"D\u00e9partement": "",
"Commune": "",
"Nom officiel du mus\u00e9e": "",
"Adresse": "",
"Lieu": "",
"Code Postal": "",
"T\u00e9l\u00e9phone": "",
"URL": "",
"REF_Deps": ""
}
```

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# Engine
Les conversions de jeux de données Geojson se font via des règles définies par les Mappers, appliqués par l'Engine. C'est là que les fonctions de conversions sont appliquées:
- conversion d'un numéro de téléphone dans un format réglementé comme dans le wiki OSM
- en booléen
- validation de format horaire
- filtrer les données selon des critères géographiques ou d'offset limité
Après initialisation de l'Engine avec [un `Mapper`](configuration_de_conversion.md), on lui passe un jeu de données geojson et on lance la conversion de données avec `mapElementFromConf()`.
Cela est réalisé dans le point d'entrée principal en node typescript: `convert_to_osm_tags.ts`
Les conversions de chaque propriété sont faites par la fonction convertProperty:
```
convertProperty(pointKeyName, mappingKeys, featurePoint, newProperties)
```
| paramètre | description |
|---------------|---------------------------------------|
| pointKeyName | clé de propriété du geojson |
| mappingKeys | liste des clés de propriétés du Point |
| featurePoint | Point geojson |
| newProperties | objet des nouvelles propriétés |
# Jardinage à partir d'OSM
L'option jardinage permet de ne pas convertir les propriétés de Geojson dans le cas où l'on extrait les données d'OSM.
Cela nécessite un mappeur différent pour appliquer des transformations de mise en qualité.
# Stats
L'engine publie des statistiques de conversion de données

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# fichier FINESS
Le fichier répertoriant les établissements de santé, hôpitaux, maisons médicales, pharmacies, laboratoires d'analyse...
# conversion
Commande de conversion:
```bash
ts-node convert_to_osm_tags.ts --source=etalab_data/finess/finess_idf.json --output-file=finess_idf.json --engine-config=mappingFINESS
```

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# Conversion de jeux de données geojson en tags OSM
Ce dépot propose des outils de conversion et de mise en qualité de jeux de données à partir de geojson ou de csv afin de les importer dans OpenStreetMap.
Une présentation de l'intégration des bornes de recharges électiques dans openstreetmap faite grâce à ce dépot est disponible sur le blog Cipher Bliss:
[https://www.cipherbliss.com/integration-des-bornes-de-recharge-de-vehicules-electriques-dans-openstreetmap/]()
# installation
utiliser npm, yarn ou pnpm
```bash
pnpm i
```
## Tout convertir d'un coup
Pour récupérer le jeu de données pour les bornes elec et convertir le geojson en fichier osm, lancer le script bash
```bash
make
```
Export depuis overpass turbo dans OSM
[https://overpass-turbo.eu/s/1yhY]()
## config
Configurer le filtre de département et les autres options dans convert_to_osm_tags.ts.
Vous pouvez voir le détail de la [création d'un nouveau Mapper ou convertisseur](ajout_jeu_de_données.md), les [propriétés possibles d'un convertisseur](configuration_de_conversion.md) en regardant celui des bornes de recharge de véhicule électrique par exemple: [MappingIRVESuisse](mappings/converters/configIRVE.ts) qui est une extension du Type [MappingConfigType](mappings/mapping-config.type.ts).
## utilisation
Après avoir bien installé les paquets et récupéré un fichier Geojson de données ouvertes, vous devez avoir une configuration de conversion, puis lancer le script principal de conversion.
```bash
ts-node convert_to_osm_tags.ts
```
Plusieurs options sont disponible pour affiner la conversion:
```
--source=chemin/mon_fichier.geojson
--department=12 (aucun filtre de département par défaut)
--engine=true (true par défaut)
--output-file=autre_nom_de_sortie.json
```
La sortie est filtrée selon le mappage donné et la zone de code postal de la config.
Vous obtenez un résultat converti en json dans le dossier /output. Il s'agit toujours d'un Geojson mais nettoyé selon votre convertisseur, il peut ensuite être converti en fichier osm à ajouter dans JOSM.
Pour le convertir, utiliser geojsontoosm, une dépendance du projet.
` geojsontoosm mon_fichier_converti.json > le_fichier_pour_josm.osm`
Ce projet a été réalisé pour l'intégration des bornes de recharge élec dans OSM à partir des données data gouv.
# Tests
Lancement de test avec Jest
# Projets d'intégrations de données
## Bornes de recharge - IRVE
Graphique des bornes de recharges à ajouter selon l'analyse Osmose:
[!https://osmose.openstreetmap.fr/en/issues/graph.png?item=8410](https://osmose.openstreetmap.fr/en/issues/graph.png?item=8410)
![graphique des bornes à ajouter](https://osmose.openstreetmap.fr/en/issues/graph.png?item=8410 "graphique")
* Tableau de conversion de l'open data:
https://wiki.openstreetmap.org/wiki/France/data.gouv.fr/Bornes_de_Recharge_pour_V%C3%A9hicules_%C3%89lectriques
# Ressources
# Contactez l'auteur, contribuez
contact at cipherbliss.com
sur Mastodon : mastodon.cipherbliss.com/@tykayn
# Roadmap
## Correctifs sur les données ajoutées
## bornes de recharge
Corrections à mettre dans le mappeur [../mappings/converters/configIRVE.ts]() et à modifier par édition en masse dans JOSM.
* ne pas mettre ref si la valeur vaut "non concerné"
* convertir les "False" et "0" en "no" pour les clés
* authentication:none
* fee (désactivé, l'open data est trop pourrie pour l'utiliser)
* socket:type2_cable
* convertir les numéros de téléphone avec un préfixe international +33 si commençant par 0
Données possible d'intégrer en plus avec le même jeu de données:
* ne pas mettre ref:EU:EVSE si la valeur vaut "non concerné"
* ajouter les références européennes ref:EU:EVSE.
* l'accessibilité => wheelchair pour certaines valeurs limitées.
## projets à venir
- Toilettes publiques
- Défibrillateurs - DAE
- Centres de santé
- Bus
# infos en bonus IRVE
* [Informations du dataset IRVE](irve_dataset_info)
* [Amplitude de puissance dans le jeu de données des IRVE](irve_puissances.md)
* URL du Dépôt: [https://forge.chapril.org/tykayn/mapping-geojson-osm.git]()
# documentation faite avec mkdocs
le site officiel de mkdocs: [mkdocs.org](https://www.mkdocs.org).

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# info sur les jeux de données
D'après le jeu de données Etalab
## conversion
```bash
ts-node convert_to_osm_tags.ts --source=etalab_data/arbres/suisse.geojson --output-file=irve_suisse.geojson --engine-config=configIRVESuisse
```
## liste des 310 opérateurs
- 270 AGENCY
- 2Ed Coutances
- 2F Production
- ABSOLUT CONCEPT
- Acelec Charge
- advenir@zeborne.com
- Aeroports de lyon
- Allego
- ALLENERGIES
- alterna energie
- ALU GRANON
- Ambroise Avocat
- ANYOS
- AQUA LOISIRS
- AREA Tech
- ART DECO FINITION
- arteco44
- ATELIERS PROVENCE LOISIRS
- Atlante | FR*ATL
- ATRACHATA
- Autel Netherlands B.V. | FR*AUT
- Automobile de l'Est
- AUTORECHARGE
- AUTORECHARGE
- AUTORECHARGE SAS
- Avomarks
- Bastide beaudinard & tours (BBT)
- BAUDUCEL
- Bénédictines du Sacré-Coeur de Montmartre
- BH RESTAURATION
- BIARS DISTRIBUTION
- BORNECO
- Borneco | FR*BHM
- Bornevo
- Bornevo Connect
- Bouygues Energies et Services
- BOUYGUES ENERGIES ET SERVICES
- box
- Camping des graniers
- CAP EMPLOI
- CAR2PLUG
- CHAPITEAUX SERVICE
- ChargePoint
- Chargepoint
- CHARGEPOLY
- CHARRIERE DISTRIBUTION
- CHATEAU DE RONZIERE
- COMMUNAUTE DE COMMUNE LE DOURDANNAIS EN HUREPOIX (CCDH)
- contact@autorecharge.fr
- COPRODEX
- Daltoner Avranches
- Daltoner Caen
- DALTONER CHERBOURG
- Daltoner Granville
- Daltoner Vire
- DIDIER CHARTON-VACHET
- Dropnplug
- e-nergyze
- E-TOTEM
- E-totem
- Easycharge services
- Ecophi mobility
- EcoPhi mobility
- EDF
- EDFRAY
- EGE NOEL BERANGER
- EGSM
- EIZMENDI TRAITEUR EVENEMENTS
- Ekoplug
- ELEC eCONNECT
- ELECTRA
- ELECTRIC 55 CHARGING
- Electriox Groupe
- electromaps
- ELECTROMAPS
- Electromaps
- ELEK BORDEAUX
- ENERGEM
- ENERGIE Eure-et-Loir
- ENERGIE EURE-ET-LOIR
- ENNESSER ET FILS
- ENTREPRISE ADAM
- ESPACE AUTO COURNON
- Est Auto
- EURO TAXI LINE
- EV MAP SAS
- EVBOX
- EVERON
- EVzen (SMEG Développement)
- evzen (SMEG Développement)
- evZen | FR*EVZ
- F.B. AUTOMOBILES
- Festilight
- Freshmile
- FRESHMILE
- freshmile
- FReshmile
- Freshmile SAS
- GABMAG17
- GABORIT BOCAGE SERVICES
- Gamba et Rota
- GARAGE HENRY
- garage Henry herve
- Garage lefebvre
- GEDIBOIS BATI COLMAN
- GENE ELEC 35
- GF3e
- Golf de La Wantzenau
- Green Diffusion
- Green Technologie
- GREEN TECHNOLOGIE
- Green To Wheel
- GreenYellow | FR*GYM
- GROFF SAS
- GROUPE COURTOIS SOCOHY
- GROUPE LGE
- GROUPE LGE SOCIETE AUTOPLUG
- Grunzke Beate
- Guerin
- H alu concept
- HABT
- HAEFELI
- HERVE THERMIQUE
- HFOOD PESSAC
- HFOOD VILLENAVE
- Hostellerie
- Hotel Le Moulin
- Hôtel MACCHI
- Hôtel Restaurant Hubert Kieffer
- ICS Scgilthigheim
- IFERRO
- INOUID
- IONITY
- Ispo france
- IXINA Le Cres
- IXINA Saint Jean de Védas
- ixina Villeneuve-lès-Béziers
- Izivia
- JAV INVESTISSEMENT
- jmd
- JONNARD LES ISSAMBRES
- Kallista BDR
- KIEHL
- Kotelon
- LA CONCIERGERIE D'ISA.
- La dilettante
- La jabotte
- La jardinerie d'aveze sarl
- LA PRAIRIE
- Lacotte
- Lacotte Pierre
- LANGON DISTRIBUTION
- Last Mile Solutions
- LE BISTRO D'HUGO
- Le Capelan
- Le Grand Large
- Le Manoir de l'Isle
- le Relais
- LE REVE DE JANINE
- Leclerc Millau
- LEGA
- LEGELEUX
- Leroux Damien
- Les jardins maraichers des bords de rance
- LIDL, Nicolas Barbarin
- LMS Informatique
- LUMI'IN
- M. Yannick PIERRE
- M.A.J.U.
- ma borne auto
- ma Borne Auto
- MABORNEAUTO
- MAS DES OLIVES
- MAS DU TERME
- MAS GALOFFRE
- Masseria
- MEA ENERGIES
- MEDIODENT
- Mickael Auto
- MOBELEC
- Modulo
- MODULO
- Modulo énergies
- MONTA
- MOVIVE_Izivia
- NEXTENEO
- NM SECURELEC
- NON CONCERNE
- Non concerné
- non concerné
- Normatech
- Normatech Lodmi
- NVH
- NW IECharge
- OCR MAINTENANCE ELECTRONIQUE
- PAS DITINERANCE
- Pascal Chene
- Perrin
- perrin
- PHARMACIE DE HUNDLING
- Pilotage Maritime
- PLAGECO DISTRIBUTION
- Polybati
- Prodici
- ProperPhi
- Provibat
- PROVIRIDIS
- Proviridis | FR*PVD
- PTBG et associés
- QoWatt
- R3
- Ramsay Pole Lille métropole
- RechargerMonAuto
- REGIE MUNICIPALE D'ELECTRICITE DE LOOS
- Rencontre-handi
- REVE
- RICOME ET SADOUL AXA FRANCE
- RONALEV
- Royal Champagne
- RSDA mobility
- SA FOOTBALL CLUB DES GIRONDINS DE BORDEAUX
- sa les broyers
- Sanou électricité
- SAP LABS FRANCE
- SARL BEAUDRE BAUDOT
- SARL JUMO
- SARL LAFOURCADE
- SARL LES BAINS DE ROYAN
- SARL VAHE
- SAS CHATEAU DE MEMANAT
- SAS DE L'AILETTE
- sas e-motum
- SAS Lujasy
- SAS Miodis
- SAS Sabo
- SATUJO
- SCI LA COLLINE
- SCI LA GRANGE DESSOUS
- SCI LES RUISSEAUX
- SCI Lounapiou
- SCI NOKI
- SCI OLYMPE
- SCP ACANTHE DRIMARACCI
- SDC CENTRE MEDICAL ARTZAMENDI
- SDC ORDINAL
- SECAL
- Securecharge
- See You Sun
- SELARL PHARMACIE CEVENOLE
- Séolis
- SGA Industries
- SIEGE 27
- SIPECC
- SNAM GROUPE
- SNER RHONE-ALPES
- société La Clérine
- Société LEVAROY, Monsieur LEROY
- Societe moderne d'isolation
- Société Sigma Tec
- Société SIPECC
- Société Y
- Sodetrel
- SOLIDARAUTO 49
- SOREGIES
- SPBR1
- SPIE CITYNETWORKS
- STATIONS-E
- Sud Camargue
- Sud Hotel
- TANAY Electricité
- Technic Elec
- themis
- Thibal Distribution
- TISSERANT
- total énergie
- Total marketing france
- TotalEnergies Charging Services
- TotalEnergies Marketing France
- ubitricity
- UBITRICITY GMBH
- Vegetalis
- Vigot
- Ville de Riquewihr
- Vincent
- Virta
- VIRTA
- Volta Charging
- WAAT
- WAAT SAS
- WattzHub
- web services advenir
- Wedom
- WeDoM
- WeDoM.io
- WeeCharge
- WICKER TP
- ZEBORNE
- ZEborne
- ZEENCO
- Zen Construction

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# domaines de données IRVE
## puissance_nominale
quelle pagaille:
- 0.0
- 0
- 1.7
- 2
- 2.3
- 3
- 3.00
- 3.22
- 3.4
- 3.7
- 4
- 4.6
- 5
- 5.5
- 5.9
- 6
- 6.9
- 7
- 7.00
- 7.0
- 7.36
- 7.4
- 9
- 11
- 11.00
- 11.04
- 12
- 12
- 12
- 14
- 15
- 16
- 17
- 18
- 18.00
- 19
- 20
- 21
- 22
- 22.00
- 22.0
- 22
- 22
- 22
- 22.08
- 23
- 24
- 24.00
- 25
- 26
- 27
- 30
- 32
- 36
- 38
- 40
- 42
- 43
- 43.00
- 44
- 45
- 47
- 48
- 50
- 50.00
- 54
- 56
- 60
- 62
- 63
- 64
- 70
- 72
- 75
- 80
- 90
- 100
- 100.00
- 110
- 115
- 120
- 122
- 124
- 125
- 126
- 149
- 150
- 160
- 175
- 175.00
- 180
- 200
- 210
- 225
- 230
- 240
- 300
- 320
- 325
- 350
- 360
- 400
- 3000
- 7000
- 22000
- 22080
- 49521
- 50000
- 60000
- 60973
- 62500
- 63000
- 71708
- 90000
- 131524
- 300000
- 2859660

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# musées
Jeu de données des musées en île de france.
# conversion
```bash
ts-node convert_to_osm_tags.ts --source=etalab_data/arbres/musées/fr.geojson --output-file=musées_idf.geojson --engine-config=MappingMuseums
```

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# Parkings vélo et 2 roues
En exemple, l'open data des parkgin 2 roues (vélo et moto) d'Issy les Moulineaux.
Le jeu de données est publié sur la plateforme data de la ville et un convertisseur est proposé ici.
Il pourrait être étendu avec les autres moyens de transport en précisant des tags sur les abris, les trottinnettes, les emplacements de vélo cargo.
Le jeu de données présente environ 350 points géolocalisés avec des informations de situation, de nature, de capacité de parking et d'équipements voisins.
Pour convertir le jeu de données dans un schéma utilisable sur OSM, on écarte les informations de voisinage et on garde les informations de nature, la date de mise en service, le nombre de places dédiées vélo et moto, et l'identifiant donné par Issy dans un référentiel personnel en sous clé de `ref:FR:` inventé à l'occasion.
# procédure
Création d'un mapping, inclusion de la config dans le code de l'Engine afin de pouvoir choisir cette configuration en option de l'appel en ligne de commande à `convert_to_osm_tags.ts`.
Fichier de mapping: `mappings/converters/configIssy_OpenData_2roues.ts`
Fichier de données: `etalab_data/cyclabilité/issy_les_mx_cyclabilité.json`
Commande de conversion:
```bash
ts-node convert_to_osm_tags.ts --source=etalab_data/cyclabilité/issy_les_mx_cyclabilité.json --o
utput-file=issy_parking_2roues.json --engine-config=mappingIssy2Roues
```
Résultat: `output/my_converted_data_set__mappingIssy2Roues.json`
Conversion en fichier OSM avec le paquet python pip geojson2osm:
```shell
geojsontoosm output/my_converted_data_set__mappingIssy2Roues.json > osm_output/issy_parkings_2r.osm
```
## Parking cyclables de la métropole de Rouen
```bash
ts-node convert_to_osm_tags.ts --source=etalab_data/cyclabilité/rouen_parking_velos.json --output-file=rouen_parking_velos.json --engine-config=mappingRouenParkingVelos
```

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# Recyclage - PAV - points d'apport volontaire
Les boites de tri de déchets public ont leur configuration de conversion.
# Conversion
## Conversion pour les données de Rouen
```bash
ts-node convert_to_osm_tags.ts --source=etalab_data/recycling/rouen_pav.json --output-file=rouen_pav.geojson --engine-config=MappingRouenPAV
```

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# Tests
Les tests sont lancés avec Jest et sont à écrire dans le dossier "tests", par défaut le runner est en mode auto rechargement des tests à la modification des fichiers.
`npm run test`
Ils fonctionnent avec des jeux de données qui se trouvent dans tests/data et des convertisseurs placés dans mappings/converters.
## Jeu de données
Le json de test disponible par défaut est un Geojson de type FeatureCollection dans testing.json
Les tests consistent à examiner les propriétés de chaque Feature Point et à les convertir selon les règles du Mapper de test.
## Mappers de test
Chaque test a à sa disposition plusieurs Mappers dans `mappings_to_test.ts` qui étendent `MappingConfigType` et peuvent s'appliquer à plusieurs jeux de données pour en tester la sortie.
- mappingPhone
- mappingRemoveAll
- mappingBoolean
- mappingName
- mappingSame
- mappingTruthy
- mappingFalsy
- mappingIgnoreFalsy
- mappingIgnoreTruthy
Leur objectif est de valider la qualité de conversion de données dans de multiples cas, et de vérifier que l'on ajoutera rien qui s'éloigne trop de ce que l'on peut deviner d'une valeur non fiable.
## Exemple de Mapper
Ce mappeur va appliquer la fonction de conversion de numéro de téléphone au format réglementaire pour les valeurs de tag "phone" selon la documentation du wiki OSM. C'est à dire que le numéro doit avoir un préfixe international (+33 pour la France) et avoir des espaces entre groupes de 2 chiffres.
```js
export const mappingPhone: MappingConfigType = {
config_name: 'testing config mappingPhone',
config_author: 'tykayn <contact@cipherbliss.com>',
default_properties_of_point: {},
tags: {
telephone_operateur: {
key_converted: 'phone',
convert_to_phone: true, // convertit en yes ou no
},
},
add_not_mapped_tags_too: false,
source: {},
filters: {},
}
```
# Écriture de tests
Pour réaliser les tests on importe l'Engine, le jeu de tests, on donne un Mapping à l'Engine, on applique la fonction de mapping, et on compare les propriétés obtenues à ce que l'on attend de la conversion.
```js
import mapping_engine from '../mappings/engine.ts'
import {
mappingPhone,
} from './data/mappings_to_test'
const testingGeoJson = require('./data/testing.json')
describe('mapping properties with rich mapping engine', () => {
test('conditional phone transform', () => {
let Mapping_engine = new mapping_engine(mappingPhone)
let mapped_point = Mapping_engine.mapElementFromConf(feature_to_test)
let expected_converted_phone = '+33 1 23 45 67 89'
expect(mapped_point.properties).toStrictEqual({ phone: expected_converted_phone })
})
})
```

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import os
import json
# Liste des fichiers JSON à traiter
json_files = [f"out_250_{i}.json" for i in range(1, 16)]
# Ouvre le fichier list.html en écriture
with open("list.html", "w", encoding="utf-8") as f_list:
# Pour chaque fichier JSON
for json_file in json_files:
# Vérifie si le fichier existe
if os.path.exists(json_file):
# Ouvre le fichier JSON en lecture
with open(json_file, "r", encoding="utf-8") as f_json:
# Charge le contenu JSON
data = json.load(f_json)
# Récupère la propriété "html"
html_content = data["html"]
# Écrit le contenu HTML dans le fichier list.html
f_list.write(html_content)
else:
print(f"Le fichier {json_file} n'existe pas.")

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curl 'https://gynandco.wordpress.com/?infinity=scrolling' --compressed -X POST -H 'User-Agent: Mozilla/5.0 (X11; Ubuntu; Linux x86_64; rv:131.0) Gecko/20100101 Firefox/131.0' -H 'Accept: */*' -H 'Accept-Language: fr,en-US;q=0.7,en;q=0.3' -H 'Accept-Encoding: gzip, deflate, br, zstd' -H 'X-Requested-With: XMLHttpRequest' -H 'Content-Type: application/x-www-form-urlencoded; charset=UTF-8' -H 'Origin: https://gynandco.wordpress.com' -H 'Sec-GPC: 1' -H 'Alt-Used: gynandco.wordpress.com' -H 'Connection: keep-alive' -H 'Referer: https://gynandco.wordpress.com/trouver-un-e-soignant-e/liste-des-soignantes/page/1/' -H 'Cookie: ccpa_applies=true; usprivacy=1YNN; euconsent-v2=CQG1_8AQG1_8AECACAFRBMEgAAAAAELAAKiQAAAMnABAECoAAKAAICCAAAIAAAAgCAAgAAAAAAAAAAAAAAAABAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAQAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAgACAAAIAAAAAAAAAAAAEAAAA' -H 'Sec-Fetch-Dest: empty' -H 'Sec-Fetch-Mode: cors' -H 'Sec-Fetch-Site: same-origin' -H 'Pragma: no-cache' -H 'Cache-Control: no-cache' -H 'TE: trailers' --data-raw 'action=infinite_scroll&page=10&currentday=17.09.24&order=DESC&scripts[0]=jetpack-mu-wpcom-settings&scripts[1]=rlt-proxy&scripts[2]=media-video-jwt-bridge&scripts[3]=cmp-script-stub&scripts[4]=wpcom-actionbar-placeholder&scripts[5]=grofiles-cards&scripts[6]=wpgroho&scripts[7]=mobile-useragent-info&scripts[8]=wordads-smart&scripts[9]=the-neverending-homepage&scripts[10]=cmp-script&scripts[11]=jetpack-carousel&scripts[12]=tiled-gallery&scripts[13]=carousel-wpcom&styles[0]=wordads-global&styles[1]=free-site-marketing-bar&styles[2]=the-neverending-homepage&styles[3]=wp-block-library&styles[4]=wp-block-library-theme&styles[5]=jetpack-layout-grid&styles[6]=jetpack-ratings&styles[7]=mediaelement&styles[8]=wp-mediaelement&styles[9]=coblocks-frontend&styles[10]=wpcom-core-compat-playlist-styles&styles[11]=wpcom-text-widget-styles&styles[12]=wpcom-bbpress2-staff-css&styles[13]=twentyeleven-block-style&styles[14]=twentyeleven-wpcom-style&styles[15]=reblogging&styles[16]=geo-location-flair&styles[17]=infinity-twentyeleven&styles[18]=h4-global&styles[19]=wp-emoji-styles&styles[20]=videopress-video-style&styles[21]=jetpack-sharing-buttons-style&styles[22]=classic-theme-styles&styles[23]=global-styles&styles[24]=jetpack-global-styles-frontend-style&styles[25]=jetpack-carousel-swiper-css&styles[26]=jetpack-carousel&styles[27]=tiled-gallery&styles[28]=core-block-supports-duotone&query_args[page]=0&query_args[pagename]=trouver-un-e-soignant-e%2Fliste-des-soignantes&query_args[error]=&query_args[m]=&query_args[p]=0&query_args[post_parent]=&query_args[subpost]=&query_args[subpost_id]=&query_args[attachment]=&query_args[attachment_id]=0&query_args[name]=&query_args[page_id]=0&query_args[second]=&query_args[minute]=&query_args[hour]=&query_args[day]=0&query_args[monthnum]=0&query_args[year]=0&query_args[w]=0&query_args[category_name]=&query_args[tag]=&query_args[cat]=&query_args[tag_id]=&query_args[author]=&query_args[author_name]=&query_args[feed]=&query_args[tb]=&query_args[paged]=0&query_args[meta_key]=&query_args[meta_value]=&query_args[preview]=&query_args[s]=&query_args[sentence]=&query_args[title]=&query_args[fields]=&query_args[menu_order]=&query_args[embed]=&query_args[category__in][]=&query_args[category__not_in][]=&query_args[category__and][]=&query_args[post__in][]=&query_args[post__not_in][]=&query_args[post_name__in][]=&query_args[tag__in][]=&query_args[tag__not_in][]=&query_args[tag__and][]=&query_args[tag_slug__in][]=&query_args[tag_slug__and][]=&query_args[post_parent__in][]=&query_args[post_parent__not_in][]=&query_args[author__in][]=&query_args[author__not_in][]=&query_args[search_columns][]=&query_args[lazy_load_term_meta]=false&query_args[posts_per_page]=250&query_args[ignore_sticky_posts]=false&query_args[suppress_filters]=false&query_args[cache_results]=true&query_args[update_post_term_cache]=true&query_args[update_menu_item_cache]=false&query_args[update_post_meta_cache]=true&query_args[post_type]=&query_args[nopaging]=false&query_args[comments_per_page]=50&query_args[no_found_rows]=false&query_args[order]=DESC&query_before=2024-10-21%2022%3A57%3A29&last_post_date=2024-10-15%2018%3A25%3A29'

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import json
import geopandas as gpd
from bs4 import BeautifulSoup
from shapely.geometry import Point
import re
import pandas as pd
def extraire_numero_telephone(line):
# Extraction des nombres dans la ligne
numbers = re.findall(r'\d+', line)
if numbers:
numbers = ''.join(numbers)
# print('numbers',numbers)
# Vérification si un numéro de téléphone est présent
if len(numbers) == 10:
# Reconstruction du numéro de téléphone
phone_number = ''.join(numbers)
return phone_number
else:
return None
def extraire_code_postal(line):
# Extraction du code postal dans la ligne
match = re.search(r'\b(\d{5})\b', line)
if match:
# Extraction des nombres correspondant au code postal
code_postal = match.group(1)
return code_postal
else:
return None
# trouver si la ligne est une adresse en cherchant deux numéros distincts et une virgule
def extraire_addr_line(line):
# Extraction des nombres dans la ligne
numbers = re.findall(r'\d+', line)
# Vérification si un numéro de téléphone est présent
if len(numbers) == 2 and ',' in line and len(numbers[1]) == 5:
return line
else:
return None
# Charger le fichier HTML
with open("list.html", "r") as file:
html = file.read()
# Analyser le code HTML avec BeautifulSoup
soup = BeautifulSoup(html, "html.parser")
# Initialiser une liste pour stocker les informations des docteurs
doctors = []
# Trouver toutes les balises <article> sur la page
articles = soup.find_all("article")
# Parcourir chaque <article> pour extraire les informations des docteurs
for article in articles:
# Récupérer le nom du docteur à partir de la balise <h1>
# print(article.find("h1"))
name = article.find("h1").find('a').text.strip()
url = article.find("h1").find('a').get("href")
# Récupérer l'adresse du docteur à partir de la balise <em> dans la classe "entry-content"
address = ''
em = article.find("em")
if em:
address = em.text
# print(address)
# Vérifier si le contenu de l'article contient "Secteur 1"
if "Secteur 1" in article.text:
sector = "1"
elif "Secteur 2" in article.text:
sector = "2"
else:
sector = None
# Recherche d'un numéro de téléphone dans l'article
phone_number = None
gender = 'unknown'
trans_friendly = ''
handles_violence = ''
visio_meeting = 'no'
pseudo_science = ''
premenstrual_syndrome = ''
accessible_cabinet = ''
tatoo = ''
toxico = ''
sterilisation = ''
abortion = ''
endometriosis = ''
bigbody = ''
poil = ''
bi = ''
lesbian = ''
pma = ''
ist = ''
pregnancy = ''
ivg = ''
generaliste = ''
gyneco = ''
sage_femme = ''
auto_prelev = ''
mycoses = ''
dyspareunie = ''
spoken = '' # langues parlées
diu = '' # dispositif intra utérin
puma= '' # PUMA (ex-CMU)
ame= '' # AME (Aide médicale détat)
code_postal = ''
for line in article.stripped_strings:
found = extraire_code_postal(line)
if found:
code_postal = found
address = line
found = extraire_numero_telephone(line)
if found:
# print(found)
phone_number = found
if 'Rdv en ligne possible' in line:
visio_meeting = 'yes'
if 'femme soignante' in line:
gender = 'women'
if 'homme soignante' in line:
gender = 'women'
if 'Trans friendly' in line:
trans_friendly = 'yes'
if 'Tattoo' in line:
tatoo = 'yes'
if 'Sensibilité violence' in line:
handles_violence = 'yes'
if 'naturelles/alternatives' in line:
pseudo_science = 'yes'
if 'SPM' in line:
premenstrual_syndrome = 'yes'
if 'Poilfriendly' in line:
poil = 'yes'
if 'Bifriendly' in line:
bi = 'yes'
if 'Stérilisation' in line:
sterilisation = 'yes'
if 'DIU' in line:
diu = 'yes'
if 'Accompagnement grossesse' in line:
pregnancy = 'yes'
if 'suivi des IST' in line:
ist = 'yes'
if 'IVG' in line:
ivg = 'yes'
if 'Médecin généraliste' in line:
generaliste = 'yes'
if 'Sage-femme' in line:
sage_femme = 'yes'
if 'auto prélèvement' in line:
auto_prelev = 'yes'
if 'Conseils mycoses' in line:
mycoses = 'yes'
if 'Lesbiennes friendly' in line:
lesbian = 'yes'
if 'PMA' in line:
pma = 'yes'
if 'PUMA' in line:
puma = 'yes'
if 'AME' in line:
ame = 'yes'
if 'français, anglais' in line:
spoken = 'french;english'
if 'espagnol' in line:
spoken = ('french;english;spanish')
if 'Dyspareunie' in line:
dyspareunie = 'yes'
if 'Gynécologue' in line:
gyneco = 'yes'
# chercher une adresse si on en a pas
if not address:
found = extraire_addr_line(line)
if found:
# print(found)
address = found
# Ajouter les informations du docteur à la liste
doctor = {
"name": name,
"address": address,
"address:code_postal": code_postal,
"ref:FR:convention_secteur": sector,
"contact:phone": phone_number,
"contact:website": url,
"gender": gender,
"visioconference_meeting": visio_meeting,
"handles:gender:trans": trans_friendly,
"handles:violence": handles_violence,
"handles:premenstrual_syndrome": premenstrual_syndrome,
"handles:IST": ist,
"accessible_cabinet": accessible_cabinet,
"pseudo_science": pseudo_science,
"speaks": spoken,
"handles:tatoo": tatoo,
"handles:toxico": toxico,
"handles:sterilisation": sterilisation,
"handles:abortion": abortion,
"handles:endometriosis": endometriosis,
"handles:premenstrual_syndrome": premenstrual_syndrome,
"handles:hairy": poil,
"handles:bigbody": bigbody,
"handles:gender:bi": bi,
"handles:diu": diu,
"handles:mycoses": mycoses,
"handles:pregnancy": pregnancy,
"handles:abortion": ivg,
"handles:auto_prelevement": auto_prelev,
"handles:pma": pma,
"handles:dyspareunie": dyspareunie,
"handles:gender:lesbian": lesbian,
"healcare:generaliste": generaliste,
"healcare:sage_femme": sage_femme,
"healcare:gynecologist": gyneco,
}
doctors.append(doctor)
# Enregistrer les informations des docteurs au format JSON dans un fichier
with open("gynandco.json", "w", encoding="utf-8") as f:
json.dump(doctors, f, ensure_ascii=False, indent=2)
with open('gynandco.json', 'r') as f:
data = json.load(f)
df = pd.DataFrame(data)
df.to_csv('gynandco.csv', index=False)

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import json
import geopandas as gpd
from bs4 import BeautifulSoup
from shapely.geometry import Point
# Charger le fichier HTML
with open("liste.html", "r") as file:
html = file.read()
# Analyser le code HTML avec BeautifulSoup
soup = BeautifulSoup(html, "html.parser")
# Trouver toutes les balises <article> qui contiennent les informations des antennes
articles = soup.find_all("article", class_="node node--type-hp-antenne node--view-mode-map-result")
# Liste pour stocker les données de chaque antenne
antennes = []
# Parcourir chaque article et extraire les informations
for article in articles:
titre = article.find("button", class_="nsb action-title").text.strip()
adresse = article.find("p", class_="address").text.strip()
website = article.find("a", class_="icon arrow").get("href").strip()
violences = article.find("li", class_="icon violences")
sexualities = article.find("li", class_="icon sexualities")
detection = article.find("li", class_="icon detection")
contraception = article.find("li", class_="icon contraception")
abortion = article.find("li", class_="icon abortion")
# Gérer les articles qui n'ont pas de numéro de téléphone
telephone = ""
try:
telephone = article.find("p", class_="tel").text.strip()
except AttributeError:
pass
latitude = float(article["data-latlng"].split(",")[0].replace("[", "").replace('"', ""))
longitude = float(article["data-latlng"].split(",")[1].replace("]", "").replace('"', ""))
geometry = Point(longitude, latitude)
antenne = {
"type": "Feature",
"geometry":geometry,
"nom": titre,
"adresse": adresse,
"contact:phone": telephone,
"contact:website": 'https://www.planning-familial.org'+website,
"family_planning:handles:violences": ('yes' if violences else 'no'),
"family_planning:handles:sexualities": ('yes' if sexualities else 'no'),
"family_planning:handles:detection": ('yes' if detection else 'no'),
"family_planning:handles:abortion": ('yes' if abortion else 'no'),
"family_planning:handles:contraception": ('yes' if contraception else 'no'),
}
# print(antenne)
antennes.append(antenne)
# Convertir la liste des antennes en un GeoDataFrame
gdf = gpd.GeoDataFrame(antennes)
# Exporter le GeoDataFrame au format GeoJSON
gdf.to_file("antennes_planning_familial.json", driver="GeoJSON")

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/**
* For a detailed explanation regarding each configuration property, visit:
* https://jestjs.io/docs/configuration
*/
import type {Config} from 'jest';
const config: Config = {
// All imported modules in your tests should be mocked automatically
// automock: false,
// Stop running tests after `n` failures
// bail: 0,
// The directory where Jest should store its cached dependency information
// cacheDirectory: "/tmp/jest_rs",
// Automatically clear mock calls, instances, contexts and results before every test
clearMocks: true,
// Indicates whether the coverage information should be collected while executing the test
collectCoverage: true,
// An array of glob patterns indicating a set of files for which coverage information should be collected
// collectCoverageFrom: undefined,
// The directory where Jest should output its coverage files
coverageDirectory: "coverage",
// An array of regexp pattern strings used to skip coverage collection
// coveragePathIgnorePatterns: [
// "/node_modules/"
// ],
// Indicates which provider should be used to instrument code for coverage
coverageProvider: "v8",
// A list of reporter names that Jest uses when writing coverage reports
// coverageReporters: [
// "json",
// "text",
// "lcov",
// "clover"
// ],
// An object that configures minimum threshold enforcement for coverage results
// coverageThreshold: undefined,
// A path to a custom dependency extractor
// dependencyExtractor: undefined,
// Make calling deprecated APIs throw helpful error messages
// errorOnDeprecated: false,
// The default configuration for fake timers
// fakeTimers: {
// "enableGlobally": false
// },
// Force coverage collection from ignored files using an array of glob patterns
// forceCoverageMatch: [],
// A path to a module which exports an async function that is triggered once before all test suites
// globalSetup: undefined,
// A path to a module which exports an async function that is triggered once after all test suites
// globalTeardown: undefined,
// A set of global variables that need to be available in all test environments
// globals: {},
// The maximum amount of workers used to run your tests. Can be specified as % or a number. E.g. maxWorkers: 10% will use 10% of your CPU amount + 1 as the maximum worker number. maxWorkers: 2 will use a maximum of 2 workers.
// maxWorkers: "50%",
// An array of directory names to be searched recursively up from the requiring module's location
// moduleDirectories: [
// "node_modules"
// ],
// An array of file extensions your modules use
// moduleFileExtensions: [
// "js",
// "mjs",
// "cjs",
// "jsx",
// "ts",
// "tsx",
// "json",
// "node"
// ],
// A map from regular expressions to module names or to arrays of module names that allow to stub out resources with a single module
// moduleNameMapper: {},
// An array of regexp pattern strings, matched against all module paths before considered 'visible' to the module loader
// modulePathIgnorePatterns: [],
// Activates notifications for test results
// notify: false,
// An enum that specifies notification mode. Requires { notify: true }
// notifyMode: "failure-change",
// A preset that is used as a base for Jest's configuration
// preset: undefined,
// Run tests from one or more projects
// projects: undefined,
// Use this configuration option to add custom reporters to Jest
// reporters: undefined,
// Automatically reset mock state before every test
// resetMocks: false,
// Reset the module registry before running each individual test
// resetModules: false,
// A path to a custom resolver
// resolver: undefined,
// Automatically restore mock state and implementation before every test
// restoreMocks: false,
// The root directory that Jest should scan for tests and modules within
// rootDir: undefined,
// A list of paths to directories that Jest should use to search for files in
// roots: [
// "<rootDir>"
// ],
// Allows you to use a custom runner instead of Jest's default test runner
// runner: "jest-runner",
// The paths to modules that run some code to configure or set up the testing environment before each test
// setupFiles: [],
// A list of paths to modules that run some code to configure or set up the testing framework before each test
// setupFilesAfterEnv: [],
// The number of seconds after which a test is considered as slow and reported as such in the results.
// slowTestThreshold: 5,
// A list of paths to snapshot serializer modules Jest should use for snapshot testing
// snapshotSerializers: [],
// The test environment that will be used for testing
// testEnvironment: "jest-environment-node",
// Options that will be passed to the testEnvironment
// testEnvironmentOptions: {},
// Adds a location field to test results
// testLocationInResults: false,
// The glob patterns Jest uses to detect test files
// testMatch: [
// "**/__tests__/**/*.[jt]s?(x)",
// "**/?(*.)+(spec|test).[tj]s?(x)"
// ],
// An array of regexp pattern strings that are matched against all test paths, matched tests are skipped
// testPathIgnorePatterns: [
// "/node_modules/"
// ],
// The regexp pattern or array of patterns that Jest uses to detect test files
// testRegex: [],
// This option allows the use of a custom results processor
// testResultsProcessor: undefined,
// This option allows use of a custom test runner
// testRunner: "jest-circus/runner",
// A map from regular expressions to paths to transformers
// transform: undefined,
// An array of regexp pattern strings that are matched against all source file paths, matched files will skip transformation
// transformIgnorePatterns: [
// "/node_modules/",
// "\\.pnp\\.[^\\/]+$"
// ],
// An array of regexp pattern strings that are matched against all modules before the module loader will automatically return a mock for them
// unmockedModulePathPatterns: undefined,
// Indicates whether each individual test should be reported during the run
// verbose: undefined,
// An array of regexp patterns that are matched against all source file paths before re-running tests in watch mode
// watchPathIgnorePatterns: [],
// Whether to use watchman for file crawling
// watchman: true,
};
export default config;

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/**
prendre un CSV,
examiner toutes les colonnes et leurs valeurs,
garder en mémoire les valeurs uniques de chaque colonne
faire un nouveau csv qui ne montre que les valeurs uniques pour chacune des colonnes
et qui compte le nombre de valeurs
**/
import utils from './mappings/utils'
import {parse} from 'csv'
const fs = require('fs')
const minimist = require('minimist')
let mini_arguments: any = minimist(process.argv.slice(2))
// interface VarianceType {
// [key: string]: Array<string>
// }
let csv_content = 'variance de dataset\n';
let separator = '\t';
let separator_fallback = ',';
let data_variance: any = {};
let folder = 'irve_bornes_recharge'
let inputFile = 'latest.csv'
let fileNameOutput = `variance_${inputFile}`;
let inputPath = `./etalab_data/${folder}/${inputFile}`
// let inputPath = './etalab_data/toilettes/small_datas.csv'
let outputPath = `etalab_data/${folder}`
console.log('mini_arguments', mini_arguments)
if (mini_arguments['inputFile']) {
inputFile = `${mini_arguments['input-file']}`
}
if (mini_arguments['source']) {
inputPath = mini_arguments['source']
}
if (mini_arguments['separator']) {
separator = mini_arguments['separator']
}
let columns_headings: Array<string> = [];
let lines_count = 0;
let longest_variance_count = 0;
function getColumnsFromRow(row: string) {
let headings: any = []
console.log('elem', row)
headings = row.split(separator)
return headings
}
/**
* sort unique values ascending in each column
*/
function reorderValuesInDataVariance() {
columns_headings.forEach((heading: string) => {
data_variance[heading] = data_variance[heading].sort((a: any, b: any) => a - b)
})
}
console.log('read file ', inputPath)
fs.readFile(inputPath, function (err: any, fileData: any) {
if (err) {
throw new Error(err)
} else {
parse(fileData, {columns: false, trim: true}, function (err: any, lines: any) {
// Your CSV data is in an array of arrays passed to this callback as rows.
if (err) {
throw new Error(err)
}
console.log('line ', lines_count)
console.log('lines.length', lines.length)
lines.forEach((line: any) => {
line = line[0]
if (lines_count === 0) {
console.log('line', line)
if (line.indexOf(separator) === -1) {
console.log('separator not found: ', separator, 'trying other separator')
if (line.indexOf(separator_fallback) === -1) {
console.log('separator not found: ', separator_fallback)
throw new Error('no separator found in csv')
} else {
console.log('fallback separator found: ', separator_fallback, 'now using it ')
separator = separator_fallback
}
}
columns_headings = getColumnsFromRow(line)
console.log('columns_headings.length', columns_headings.length)
// console.log('columns_headings', columns_headings)
let headers = Object.keys(columns_headings)
columns_headings.forEach((header: string) => {
data_variance[header] = []
})
console.log('data_variance', data_variance)
} else {
// lignes suivantes
let column_index = 0
line.split(separator).forEach((value: string) => {
value = value.trim()
let column_header_current = columns_headings[column_index]
// console.log('column_index', column_index)
// dans chaque colonne, vérifier que la valeur n'est pas déjà présente
// dans les index de variance
// si la valeur est nouvelle, l'ajouter
if (data_variance[column_header_current].indexOf(value) === -1) {
data_variance[column_header_current].push(value)
if (
data_variance[column_header_current].length > longest_variance_count
) {
longest_variance_count = data_variance[column_header_current].length
}
} else {
console.log('value', value, ' déjà présente dans la collection', column_header_current)
}
column_index++
})
}
lines_count++
})
console.log('lines_count', lines_count)
console.log('longest_variance_count', longest_variance_count)
reorderValuesInDataVariance()
utils.writeFile(fileNameOutput, writeCSVVariance(), outputPath)
})
}
console.log('parsing done')
// console.log('data_variance', data_variance)
})
/**
* écrit un csv avec les données de variance du dataset donné
*/
function writeCSVVariance() {
let csv_content = `;variance de ${inputPath};généré le:;${new Date()};lignes du csv original:;${lines_count};fait avec make_variance_from_csv.ts de Tykayn
`
let columns = Object.keys(data_variance);
// add headings
columns_headings.forEach((heading: string) => {
csv_content = csv_content + separator + heading
})
csv_content = csv_content + '\n'
// add max length of variance for each column
let ii = 0
columns.forEach((column: string) => {
// console.log('column', column, data_variance[column].length)
csv_content = csv_content + separator + data_variance[column].length
ii++
})
csv_content = csv_content + '\n\n'
// add content of values
for (let ii = 0; ii < longest_variance_count; ii++) {
csv_content = csv_content + '\n'
columns.forEach((column: any) => {
if (ii < data_variance[column].length) {
let currentValue = data_variance[column][ii]
csv_content = csv_content + separator + currentValue
} else {
csv_content = csv_content + separator
}
})
}
return csv_content;
}

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default: irve
get_files:
bash ./update_scripts/get_datasets.sh
echo "fichiers récupérés"
irve:
bash ./update_scripts/convert_irve.sh
echo " DONE "
echo " "
echo "you can open the IRVE converted osm file in JOSM : osm_output/bornes-irve-filetered_latest.osm "
echo "you can open the existing IRVE referenced in OSM : osm_output/bornes-irve-filetered_latest.osm "
osmose_irve:
pnpm i
ts-node convert_to_osm_tags.ts --osmose=true --engine=true --source="etalab_data/irve_bornes_recharge/osmose-item-irve-8411-intégrables.json" --outname="_irve-latest-osmose"
#geojson2osm "etalab_data/irve_bornes_recharge/osmose-item-irve-8411-intégrables.json" > "osm_output/osmose-item-irve-8411-intégrables.osm"
geojson2osm "output/my_converted_data_set__irve-latest-osmose.json" > "osm_output/my_converted_data_set__irve-latest-osmose.osm"

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import MappingConfigType from "../mapping-config.type";
/**
* conversion des données concernant les arbres de la ville d'Echirolles
* lancement du script:
*
* ts-node convert_to_osm_tags.ts --source="etalab_data/abres/arbres_ech.json" --output-file="arbres-echirolles.geojson" --engine-config=MappingArbresEchirolles
*
* documentation sur les espèces d'arbres
* nom : item wikidata
* "Platanus acerifolia" Q24853030
* "Tilia cordata" Q158746
* "Liriodendron tulipifera" Q158783
*/
const MappingArbresEchirolles: MappingConfigType = {
// add_not_mapped_tags_too: false,
// source: undefined,
config_name: 'Mapping des arbres d\'Echirolles',
config_author: 'tykayn <contact+geojson2osm@cipherbliss.com>',
default_properties_of_point: {natural: 'tree', source : 'Échirolles Métropole'},
tags: {
// ******* booléens
// ******* nombres
// - ID_ARBRE : ref:FR:issy_les_mx:id_arbre identifiant interne à Issy les Moulineaux
"id_arbre": "ref:FR:Échirolles:id_arbre",
// ******* textes
"nom_latin": {
key_converted: "species",
conditional_values: {
"Platanus acerifolia": {'tags_to_add': {"species:wikidata": "Q24853030"}},
"Tilia cordata": {'tags_to_add': {"wikidata": "species:Q158746"}},
"Liriodendron tulipifera": {'tags_to_add': {"species:wikidata": "Q158783"}},
},
},
// - CADUC_PERS : leaf_cycle=evergreen pour persistant , deciduous pour caduque
// "caduc_pers": {
// conditional_values: {
// "Persistant ": {
// 'tags_to_add':{
// "leaf_cycle": "evergreen",
// }
// },
// "Caduc ": {
// 'tags_to_add':{
// "leaf_cycle": "deciduous",
// }
// },
// }
// },
// - FEUIL_CONI : feuillu leaf_type=broadleaved / connifère leaf_type=needleleaved
// "feuil_coni": {
// conditional_values: {
// "Feuillu ": {
// 'tags_to_add':{
// "leaf_type": "broadleaved",
// }
// },
// "Conifère ": {
// 'tags_to_add':{
// "leaf_type": "needleleaved",
// }
// },
// }
// },
// - PARTICULAR : Majeur, Remarquable : historic=monument
// "particular": {
// conditional_values: {
// "Majeur ": {
// 'tags_to_add':{
// "historic": "monument",
// },
// },
// "Remarquable ": {
//
// 'tags_to_add':{
// "historic": "monument",
// },
// },
// }
// },
// - FORME: tree_shape = curtain / free / half_free <= Architecturé, rideau / Libre / Semi-libre
// "forme": {
// key_converted: "tree_shape",
// conditional_values: {
// "Architecturé, rideau ": {
// 'tags_to_add':{
// "tree_shape": "curtain",
// },
// },
// "Semi-libre ": {
// 'tags_to_add':{
// "tree_shape": "half_free",
// },
// },
// "Libre ": {
// 'tags_to_add':{
// "tree_shape": "free",
// },
// },
// }
// },
},
add_not_mapped_tags_too: false,
source: {
geojson_path: 'https://data.issy.com/api/explore/v2.1/catalog/datasets/arbres-remarquables-issy-les-moulineaux/exports/geojson?lang=fr&timezone=Europe%2FBerlin',
url: 'https://www.data.gouv.fr/fr/datasets/arbres-remarquables'
},
filters: {
// offset:10
},
}
export default MappingArbresEchirolles

51
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import MappingConfigType from "../mapping-config.type";
const MappingArbres92: MappingConfigType = {
config_name: 'Mapping des arbres d\'Issy les Moulineaux',
config_author: 'tykayn <contact+geojson2osm@cipherbliss.com>',
default_properties_of_point: {natural: 'tree'},
tags: {
// ******* booléens
// ******* nombres
// - ID_ARBRE : ref:FR:issy_les_mx:id_arbre identifiant interne à Issy les Moulineaux
"idelement_vert": "ref:FR:cadastre_vert:id_element_vert",
"type": "ref:FR:cadastre_vert:type",
// ******* textes
// ******* textes
// - HAUTEUR est_height=* hauteur estimée en intervalle de mètres
//"class_hauteur": "est_height",
// - VERNACULAIRE : species:FR=*
//"vernaculaire": "species:FR",
// https://wiki.openstreetmap.org/wiki/Key:circumference
"diametre": "circumference",// tour du tronc à hauteur de poitrine
// "diametre": {// tour du tronc à hauteur de poitrine
// key_converted: "circumference",
// conditional_values: {
// "0 m": {
// ignore_this_data: true,
// }
// }
// },
"circonference": "diameter_crown",// tour de toutes les branches, la couronne
// "circonference": {// tour de toutes les branches, la couronne
// key_converted: "diameter_crown",
// conditional_values: {
// "0 m": {
// ignore_this_data: true,
// }
// }
//
// },
},
add_not_mapped_tags_too: false,
source: {
geojson_path: 'https://opendata.hauts-de-seine.fr/api/explore/v2.1/catalog/datasets/cadastre-vert-les-arbres/exports/geojson?lang=fr&timezone=Europe%2FBerlin',
url: 'https://opendata.hauts-de-seine.fr/explore/dataset/cadastre-vert-les-arbres'
},
filters: {},
}
export default MappingArbres92

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import MappingConfigType from "../mapping-config.type";
const MappingArbresIssy: MappingConfigType = {
config_name: 'Mapping des arbres d\'Issy les Moulineaux',
config_author: 'tykayn <contact+geojson2osm@cipherbliss.com>',
default_properties_of_point: {natural: 'tree'},
tags: {
// ******* booléens
// ******* nombres
// - ID_ARBRE : ref:FR:issy_les_mx:id_arbre identifiant interne à Issy les Moulineaux
"id_arbre": "ref:FR:issy_les_mx:id_arbre",
"ordre": "ref:FR:issy_les_mx:ordre_arbre",
// - AN_PLANT : date de plantation
"an_plan": "date_start",
// ******* textes
// - HAUTEUR est_height=* hauteur estimée en intervalle de mètres
"class_hauteur": "est_height",
// - VERNACULAIRE : species:FR=*
"vernaculaire": "species:FR",
// - GENESPVAR : nom d'espèce species=*
"genespvar": "species",
// - CADUC_PERS : leaf_cycle=evergreen pour persistant , deciduous pour caduque
"caduc_pers": {
conditional_values: {
"Persistant ": {
'tags_to_add':{
"leaf_cycle": "evergreen",
}
},
"Caduc ": {
'tags_to_add':{
"leaf_cycle": "deciduous",
}
},
}
},
// - FEUIL_CONI : feuillu leaf_type=broadleaved / connifère leaf_type=needleleaved
"feuil_coni": {
conditional_values: {
"Feuillu ": {
'tags_to_add':{
"leaf_type": "broadleaved",
}
},
"Conifère ": {
'tags_to_add':{
"leaf_type": "needleleaved",
}
},
}
},
// - PARTICULAR : Majeur, Remarquable : historic=monument
"particular": {
conditional_values: {
"Majeur ": {
'tags_to_add':{
"historic": "monument",
},
},
"Remarquable ": {
'tags_to_add':{
"historic": "monument",
},
},
}
},
// - FORME: tree_shape = curtain / free / half_free <= Architecturé, rideau / Libre / Semi-libre
"forme": {
key_converted: "tree_shape",
conditional_values: {
"Architecturé, rideau ": {
'tags_to_add':{
"tree_shape": "curtain",
},
},
"Semi-libre ": {
'tags_to_add':{
"tree_shape": "half_free",
},
},
"Libre ": {
'tags_to_add':{
"tree_shape": "free",
},
},
}
},
},
add_not_mapped_tags_too: false,
source: {
geojson_path: 'https://data.issy.com/api/explore/v2.1/catalog/datasets/arbres-remarquables-issy-les-moulineaux/exports/geojson?lang=fr&timezone=Europe%2FBerlin',
url: 'https://www.data.gouv.fr/fr/datasets/arbres-remarquables'
},
filters: {
offset:10
},
}
export default MappingArbresIssy

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/**
* commerces adhérant à Ask Angela
* https://wiki.openstreetmap.org/wiki/FR:Tag:harassment_prevention%3Dask_angela
*/
import MappingConfigType from "../mapping-config.type";
const MappingAskAngela: MappingConfigType = {
config_name: "mappingRouenParkingVelos",
config_author: "tykayn <contact@cipherbliss.com>",
default_properties_of_point: {
'harassment_prevention': 'ask_angela',
},
source: {
geojson_path: '',
url: ''
},
filters: {
// exclude_point_if_tag_not_empty: ['id_osm'], // on peut exclure des données converties celles qui sont déjà avec un identifiant openstreetmap afin de favoriser l'intégration san avoir à gérer les doublons
// offset: 1
},
add_not_mapped_tags_too: false,
boolean_keys: [],
tags_to_ignore_if_value_is: ['Non renseigne'],
tags: {
// ******* opendata de toulouse START **************
structure: {
remove_original_key: true,
conditional_values: {
"Hôtel": {
tags_to_add: {
'tourism': 'hotel'
}
},
"Restaurant": {
tags_to_add: {
'amenity': 'restaurant'
}
},
}
},
'id': 'ref:FR:Toulouse:ask_angela_id',
noms: {
key_converted: 'name',
convert_to_name: true,
},
nom : {
key_converted: 'name',
convert_to_name: true,
},
// ******* opendata de toulouse END **************
// ******* opendata de poitiers START **************
'_id': 'ref:FR:Poitiers:ask_angela_id',
// ******* opendata de poitiers END **************
// ******* opendata de bordeaux START **************
'gid': 'ref:FR:Bordeaux:ask_angela_id',
'libelle': 'name',
'url': 'contact:website',
'cdate': 'start_date:ask_angela',
'mdate': 'check_date:ask_angela',
// ******* opendata de bordeaux END **************
// "addresse": "",
}
}
export default MappingAskAngela;

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/**
* plan de conversion des clés du jeu de données vers les tags OSM
* détail dans le tableau
* https://wiki.openstreetmap.org/wiki/France/data.gouv.fr/Bornes_de_Recharge_pour_V%C3%A9hicules_%C3%89lectriques
*/
import MappingConfigType from "../mapping-config.type";
const mappingFINESS: MappingConfigType = {
config_name: "mappingFINESS",
config_author: "tykayn <contact@cipherbliss.com>",
default_properties_of_point: {},
source: {
geojson_path: "finess/finess_idf.json",
url: 'https://www.data.gouv.fr/fr/datasets/r/b9731c6f-c0d7-422e-9e1c-19edd51687ce'
},
filters: {
// exclude_point_if_tag_not_empty: ['id_osm'],
// offset: 1
},
add_not_mapped_tags_too: false,
boolean_keys: [],
tags_to_ignore_if_value_is: [],
tags: {
// ******* nombres
// capacite: 'capacity',
// ******* textes
siret: 'ref:FR:SIRET',
rslongue: {
key_converted: 'name',
convert_to_name: true,
},
nofinesset: 'ref:FR:FINESS:et',
nofinessej: 'ref:FR:FINESS:ej',
codemft: 'ref:FR:code_mft',
datemaj_structure: 'date:structure:update',
datemaj_geo: 'date:geolocalisation:update',
// categetab: 'ref:FR:categtab',
epci_code: 'ref:FR:code_EPCI',
epci_name: 'ref:FR:EPCI',
categagretab: 'ref:FR:FINESS:category_agreg',
codeape: 'ref:FR:NAF', // https://wiki.openstreetmap.org/wiki/FR:Key:ref:FR:NAF
// categtab: 'type:FR:FINESS',
dateouv: 'start_date',
dateautor: 'authorisation_date',
telephone: {
key_converted: 'operator:phone',
convert_to_phone: true,
},
telecopie: {
key_converted: 'operator:fax',
convert_to_phone: true,
},
categetab: {
remove_original_key: true,
key_converted: 'type:FR:FINESS',
conditional_values: {
// doc https://wiki.openstreetmap.org/wiki/FR:Key:type:FR:FINESS
// Centre Hospitalier Régional
101: {
tags_to_add: {
"amenity": "hospital",
"emergency": "yes",
"healthcare:speciality": "psychiatry",
}
},
// Centre Hospitalier ex Hôpital local
106: {
tags_to_add: {
"amenity": "hospital",
"emergency": "yes",
"healthcare:speciality": "psychiatry",
}
},
// Soins de Suite et Réadaptation
109: {
tags_to_add: {
"amenity": "hospital",
"healthcare:speciality": "psychiatry",
}
},
// Hôpital des armées
114: {
tags_to_add: {
"amenity": "hospital",
}
},
//Établissement de Soins Obstétriques Chirurgico-Gynécologiques
122: {
tags_to_add: {
"amenity": "hospital",
"healthcare:speciality": "obstetrics"
}
},
// Centre de Santé
124: {
tags_to_add: {
"healthcare": "center",
}
},
// Centre de Santé Dentaire
125: {
tags_to_add: {
"amenity": "dentist",
"healthcare": "dentist",
"healthcare:speciality": "dentist",
}
},
// Centre Médico-Psychologique (C.M.P.)
156: {
tags_to_add: {
"healthcare": "centre",
"healthcare:speciality": "psychiatry"
}
},
// "Laboratoires de Biologie Médicale": {
611: {
tags_to_add: {
"healthcare": "laboratory"
}
},
// Centre d'Accueil Th\u00e9rapeutique \u00e0 temps partiel (C.A.T.T.P.)
425: {
tags_to_add: {
"healthcare": "centre",
"healthcare:speciality": "psychiatry"
}
},
// "Centre Hospitalier (C.H.)": {
412: {
tags_to_add: {
"amenity": "hospital",
"healthcare": "hospital"
}
},
// "Pharmacie d'Officine": {
620: {
tags_to_add: {
"healthcare": "pharmacy"
}
},
// "Maison de santé (L.6223-3)": {
603: {
tags_to_add: {
"healthcare": "centre"
}
},
}
},
}
}
export default mappingFINESS;

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/**
* plan de conversion des clés du jeu de données vers les tags OSM
* détail dans le tableau
* https://wiki.openstreetmap.org/wiki/France/data.gouv.fr/Bornes_de_Recharge_pour_V%C3%A9hicules_%C3%89lectriques
*/
import MappingConfigType from "../mapping-config.type";
const MappingIRVE: MappingConfigType = {
config_name: "IRVE config",
config_author: "tykayn <contact@cipherbliss.com>",
default_properties_of_point: {
'amenity': 'charging_station'
},
source: {
geojson_path: "etalab_data/all.json",
url: 'https://www.data.gouv.fr/fr/datasets/r/7eee8f09-5d1b-4f48-a304-5e99e8da1e26'
},
/**
* select only certain points from the source
*/
filters: {
enable_coordinates_filter: false,
enable_properties_filter: true,
filter_points_lesser_than_NkW: 22 // ne pas sortir les points qui ont moins de ce nombre de puissance nominale
// add only geojson points who are found having this regex in the zipcode properties
// properties: {
// consolidated_code_postal: '^[76|27]'
// },
// bounding_box: [
// {}
// ]
},
add_not_mapped_tags_too: false,
boolean_keys: [
"prise_type_ef",
"prise_type_2",
"prise_type_combo_ccs",
"prise_type_chademo",
"gratuit",
"paiement_acte",
"paiement_cb",
"cable_t2_attache"
],
tags: {
// ******* nombres
nbre_pdc: 'capacity',
// ******* textes
amenity: 'amenity', // conserver le tag de base
capacity: 'capacity', // conserver le tag de base
nom_amenageur: 'operator',
siren_amenageur: 'owner:ref:FR:SIREN',
nom_operateur: 'operator',
telephone_operateur: {
key_converted: 'operator:phone',
convert_to_phone: true, // conversion en format international si possible
},
phone: {
key_converted: 'operator:phone',
convert_to_phone: true, // conversion en format international si possible
},
contact_operateur: 'operator:email', // ici, on souhaite convertir la clé contact_operateur=bidule en email=bidule
id_station_itinerance: {
key_converted: 'ref:EU:EVSE',
remove_stars: true,
},
id_station_local: 'ref',
/**
* l'info de gratuité a été mal renseignée par les opérateurs, ils mettent TRÈS souvent que c'est gratuit alors que ce n'est pas vrai.
*/
gratuit: {
key_converted: 'fee',
convert_to_boolean_value: true,
invert_boolean_value: true,
},
paiement_acte:
{
key_converted: 'authentication:none',
convert_to_boolean_value: true, // convertit en yes ou no
},
reservation: {
convert_to_boolean_value: true, // convertit en yes ou no
},
// observations: 'note',
nom_station: 'description',
nom_enseigne: 'network',
// ******* dates
date_mise_en_service: 'start_date',
// date_maj: 'source:date',
// ******** champs booléens
cable_t2_attache: {
key_converted: 'socket:type2_cable',
// socket:type2_cable vaut 1 dans OSM si vrai
truthy_value: '1',
ignore_if_falsy: true,
}
,
prise_type_ef: {
key_converted: 'socket:typee',
ignore_if_falsy: true,
convert_to_boolean_value: true,
},
prise_type_2: {
key_converted: 'socket:type2',
ignore_if_falsy: true,
convert_to_boolean_value: true,
},
prise_type_combo_ccs: {
key_converted: 'socket:type2_combo',
ignore_if_falsy: true,
convert_to_boolean_value: true,
},
prise_type_chademo: {
key_converted: 'socket:chademo',
ignore_if_falsy: true,
convert_to_boolean_value: true,
},
// ******** champs plus complexes
horaires: 'opening_hours', // déjà au bon format, enfin, en général. vérifier avec le validateur josm.
paiement_cb: {
key_converted: 'payment:credit_cards',
// ignore_if_falsy: true,
convert_to_boolean_value: true,
},
accessibilite_pmr: {
key_converted: "wheelchair",
conditional_values: {
"Accessibilité inconnue": {
ignore_this_data: true, // ne pas ajouter de tag si la valeur est égale à Accessibilité inconnue.
},
"Accessible mais non réservé PMR": {
value_converted: "yes"
},
"Réservé PMR": {
value_converted: "yes"
},
"Non accessible": {
value_converted: "no"
},
"Mo-Fr 08:30-12:00,Mo-Fr 14:00-19:00,Sat 09:00-18:30": {
value_converted: "Mo-Fr 08:30-12:00,Mo-Fr 14:00-19:00,Sat 09:00-18:30"
},
// On précise que l'on veut conserver cette valeur, par défaut tout ce qui n'est pas précisé en valeur conditionnelle n'est pas conservé
"24/7": {
value_converted: "24/7"
}
},
},
station_deux_roues: {
remove_original_key: true,
conditional_values: {
// ajout de trois tags si la valeur est yes
"yes": {
tags_to_add: [
{bicycle: "yes"},
{scooter: "yes"},
{motorcar: "no"},
]
}
}
},
puissance_nominale: {
key_converted: 'charging_station:output',
socket_output_find_correspondances: true,
}
},
}
export default MappingIRVE;

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/**
* plan de conversion des clés du jeu de données vers les tags OSM
* détail dans le tableau
* https://wiki.openstreetmap.org/wiki/France/data.gouv.fr/Bornes_de_Recharge_pour_V%C3%A9hicules_%C3%89lectriques
*/
import MappingConfigType from "../mapping-config.type";
const MappingIRVESuisse: MappingConfigType = {
config_name: "IRVE config",
config_author: "tykayn <contact@cipherbliss.com>",
default_properties_of_point: {
'amenity': 'charging_station'
},
source: {
geojson_path: "etalab_data/all.json",
url: 'https://www.data.gouv.fr/fr/datasets/r/7eee8f09-5d1b-4f48-a304-5e99e8da1e26'
},
/**
* select only certain points from the source
*/
filters: {
enable_coordinates_filter: false,
enable_properties_filter: true,
// add only geojson points who are found having this regex in the zipcode properties
// properties: {
// consolidated_code_postal: '^[76|27]'
// },
// bounding_box: [
// {}
// ]
},
add_not_mapped_tags_too: false,
boolean_keys: [
"prise_type_ef",
"prise_type_2",
"prise_type_combo_ccs",
"prise_type_chademo",
"gratuit",
"paiement_acte",
"paiement_cb",
"cable_t2_attache"
],
tags: {
// ******* nombres
nbre_pdc: 'capacity',
// ******* textes
amenity: 'amenity', // conserver le tag de base
capacity: 'capacity', // conserver le tag de base
nom_amenageur: 'operator',
siren_amenageur: 'owner:ref:FR:SIREN',
nom_operateur: 'operator',
telephone_operateur: {
key_converted: 'operator:phone',
convert_to_phone: true, // conversion en format international si possible
},
phone: {
key_converted: 'operator:phone',
convert_to_phone: true, // conversion en format international si possible
},
contact_operateur: 'operator:email', // ici, on souhaite convertir la clé contact_operateur=bidule en email=bidule
id_station_itinerance: 'ref:EU:EVSE',
id_station_local: 'ref',
/**
* l'info de gratuité a été mal renseignée par les opérateurs, ils mettent TRÈS souvent que c'est gratuit alors que ce n'est pas vrai.
*/
gratuit: {
key_converted: 'fee',
convert_to_boolean_value: true,
invert_boolean_value: true,
},
paiement_acte:
{
key_converted: 'authentication:none',
convert_to_boolean_value: true, // convertit en yes ou no
},
reservation: {
convert_to_boolean_value: true, // convertit en yes ou no
},
// observations: 'note',
nom_station: 'description',
nom_enseigne: 'network',
// ******* dates
date_mise_en_service: 'start_date',
// date_maj: 'source:date',
// ******** champs booléens
cable_t2_attache: {
key_converted: 'socket:type2_cable',
// socket:type2_cable vaut 1 dans OSM si vrai
truthy_value: '1',
ignore_if_falsy: true,
}
,
prise_type_ef: {
key_converted: 'socket:typee',
ignore_if_falsy: true,
convert_to_boolean_value: true,
},
prise_type_2: {
key_converted: 'socket:type2',
ignore_if_falsy: true,
convert_to_boolean_value: true,
},
prise_type_combo_ccs: {
key_converted: 'socket:type2_combo',
ignore_if_falsy: true,
convert_to_boolean_value: true,
},
prise_type_chademo: {
key_converted: 'socket:chademo',
ignore_if_falsy: true,
convert_to_boolean_value: true,
},
// ******** champs plus complexes
horaires: 'opening_hours', // déjà au bon format, enfin, en général. vérifier avec le validateur josm.
paiement_cb: {
key_converted: 'payment:credit_cards',
// ignore_if_falsy: true,
convert_to_boolean_value: true,
},
accessibilite_pmr: {
key_converted: "wheelchair",
conditional_values: {
"Accessibilité inconnue": {
ignore_this_data: true, // ne pas ajouter de tag si la valeur est égale à Accessibilité inconnue.
},
"Accessible mais non réservé PMR": {
value_converted: "yes"
},
"Réservé PMR": {
value_converted: "yes"
},
"Non accessible": {
value_converted: "no"
},
"Mo-Fr 08:30-12:00,Mo-Fr 14:00-19:00,Sat 09:00-18:30": {
value_converted: "Mo-Fr 08:30-12:00,Mo-Fr 14:00-19:00,Sat 09:00-18:30"
},
// On précise que l'on veut conserver cette valeur, par défaut tout ce qui n'est pas précisé en valeur conditionnelle n'est pas conservé
"24/7": {
value_converted: "24/7"
}
},
},
station_deux_roues: {
remove_original_key: true,
conditional_values: {
// ajout de trois tags si la valeur est yes
"yes": {
tags_to_add: [
{bicycle: "yes"},
{scooter: "yes"},
{motorcar: "no"},
]
}
}
},
puissance_nominale: {
key_converted: 'charging_station:output',
socket_output_find_correspondances: true,
}
},
}
export default MappingIRVESuisse;

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/**
* plan de conversion des clés du jeu de données vers les tags OSM
* détail dans le tableau
* https://wiki.openstreetmap.org/wiki/France/data.gouv.fr/Bornes_de_Recharge_pour_V%C3%A9hicules_%C3%89lectriques
*/
import MappingConfigType from "../mapping-config.type";
const MappingIRVEOsmose: MappingConfigType = {
config_name: "IRVE config for Osmose IRVE items",
osmose: true,
config_author: "tykayn <contact@cipherbliss.com>",
default_properties_of_point: {
'amenity': 'charging_station'
},
source: {
geojson_path: "etalab_data/all.json",
url: 'https://osmose.openstreetmap.fr/api/0.3/issues.geojson?full=true&status=open&item=8410&limit=20000'
},
/**
* select only certain points from the source
*/
filters: {
enable_coordinates_filter: false,
enable_properties_filter: true,
},
add_not_mapped_tags_too: true,
tags: {
// // ******* nombres
// // ******* textes
amenity: 'amenity', // conserver le tag de base
capacity: 'capacity', // conserver le tag de base
'owner:ref:FR:SIREN': 'owner:ref:FR:SIREN',
operator: 'operator',
'operator:phone': {
key_converted: 'operator:phone',
convert_to_phone: true, // conversion en format international si possible
},
'phone': {
key_converted: 'operator:phone',
convert_to_phone: true, // conversion en format international si possible
},
},
}
export default MappingIRVEOsmose;

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/**
* plan de conversion des clés du jeu de données vers les tags OSM
* détail dans le tableau
* https://wiki.openstreetmap.org/wiki/France/data.gouv.fr/Bornes_de_Recharge_pour_V%C3%A9hicules_%C3%89lectriques
*/
import MappingConfigType from "../mapping-config.type";
const mappingIssy2Roues: MappingConfigType = {
config_name: "mappingIssy2Roues",
config_author: "tykayn <contact@cipherbliss.com>",
default_properties_of_point: {
'amenity': 'bicycle_parking'
},
source: {
geojson_path: "cyclabilité/issy_les_mx_cyclabilité.json",
url: 'https://data.issy.com/explore/dataset/parkings-2-roues/table/?disjunctive.commune=&disjunctive.type_aire=&disjunctive.type_vehicule=&disjunctive.etat=&disjunctive.pres_abri=&disjunctive.acces_reglement=&disjunctive.position=&sort=nb_places'
},
filters: {
},
add_not_mapped_tags_too: false,
boolean_keys: [
"acces_reglement",
],
tags: {
// ******* nombres
nb_places: 'capacity',
nb_pl_velo: 'capacity:bike',
nb_pl_moto: 'capacity:motorcycle',
annee_crea: 'start_date',
// ******* textes
type_aire: {
"remove_original_key": true,
"conditional_values": {
"Poteaux": {
"tags_to_add": [
{
"bicycle_parking": "bollard"
},
]
},
"Arceaux": {
"tags_to_add": [
{
"bicycle_parking": "bollard"
},
]
},
"Anneaux": {
"tags_to_add": [
{
"bicycle_parking": "stands"
},
]
},
}
},
// type_aire: 'nb_pl_moto', // Poteaux => bicycle_parking=bollard, Arceaux, Anneaux => bicycle_parking=stands, Marquage, null, Non renseigné, Range-vélos, Sans, Trottoir
id_r2roues: 'ref:FR:r2roues_issy_les_mx',
// acces_reglement: 'access',
}
}
export default mappingIssy2Roues;

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mappings/converters/configMuseums.ts Normal file
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import MappingConfigType from "../mapping-config.type";
const MappingMuseums: MappingConfigType = {
config_name: 'Mapping des musées en Île de France',
config_author: 'tykayn <contact+geojson2osm@cipherbliss.com>',
default_properties_of_point: {tourism: 'museum'},
tags: {
// ******* booléens
// ******* nombres
"URL": "contact:website",
"Identifiant Muséofile": "ref:FR:museums:museofile",
"REF_Deps": "ref:FR:museums:deps",
// ******* textes
'Téléphone': {
key_converted: "contact:phone",
convert_to_phone: true,
},
},
add_not_mapped_tags_too: false,
source: {
geojson_path: '',
url: ''
},
filters: {
// offset:2 // uncomment to run small tests
},
}
export default MappingMuseums

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mappings/converters/configPlanningFamilial.ts Normal file
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/**
* commerces adhérant à Ask Angela
* https://wiki.openstreetmap.org/wiki/Tag:healthcare:speciality%3Dfamily_planning
*/
import MappingConfigType from "../mapping-config.type";
const MappingPlanningFamlial: MappingConfigType = {
config_name: "planning familial",
config_author: "tykayn <contact@cipherbliss.com>",
default_properties_of_point: {
'healthcare:speciality': 'family_planning',
},
source: {
// source faite à partir de data scraping du site français
geojson_path: '',
url: 'https://www.planning-familial.org/fr',
overpass_query:`
[out:json][timeout:200];
{{geocodeArea:"France"}}->.searchArea;
nwr["healthcare:speciality"="family_planning"](area.searchArea);
out geom;
`
},
filters: {
// offset: 1
},
add_not_mapped_tags_too: false,
boolean_keys: [],
tags_to_ignore_if_value_is: ['Non renseigne'],
tags: {
adresse: "addr:full",
nom : {
key_converted: 'name',
convert_to_name: true,
},
telephone : {
key_converted: 'contact:phone',
convert_to_phone: true,
},
"contact:website":"contact:website",
"family_planning:handles:violences" : "family_planning:handles:violences",
"family_planning:handles:sexualities" : "family_planning:handles:sexualities",
"family_planning:handles:detection" : "family_planning:handles:detection",
"family_planning:handles:abortion" : "family_planning:handles:abortion",
"family_planning:handles:contraception" : "family_planning:handles:contraception",
// ******* opendata de toulouse END **************
}
}
export default MappingPlanningFamlial;

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mappings/converters/configRouen_OpenData_velo_parkings.ts Normal file
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/**
* plan de conversion des clés du jeu de données vers les tags OSM
* détail dans le tableau
* https://wiki.openstreetmap.org/wiki/France/data.gouv.fr/Bornes_de_Recharge_pour_V%C3%A9hicules_%C3%89lectriques
*/
import MappingConfigType from "../mapping-config.type";
const mappingRouenParkingVelos: MappingConfigType = {
config_name: "mappingRouenParkingVelos",
config_author: "tykayn <contact@cipherbliss.com>",
default_properties_of_point: {
'amenity': 'bicycle_parking'
},
source: {
geojson_path: "cyclabilité/rouen_parking_velos.json",
url: 'https://data.metropole-rouen-normandie.fr/api/explore/v2.1/catalog/datasets/liste-des-stationnements-cyclables-metropole-rouen-normandie/exports/geojson?lang=fr&timezone=Europe%2FBerlin'
},
filters: {
exclude_point_if_tag_not_empty: ['id_osm'], // on peut exclure des données converties celles qui sont déjà avec un identifiant openstreetmap afin de favoriser l'intégration san avoir à gérer les doublons
// offset: 100
},
add_not_mapped_tags_too: false,
boolean_keys: [
"acces_reglement",
],
tags_to_ignore_if_value_is: ['Non renseigne'],
tags: {
// ******* nombres
capacite: 'capacity',
capacite_cargo: 'capacity:cargo_bike',
gestionnaire: {
key_converted: 'operator',
conditional_values: {
"Non renseigne": {
ignore_this_data: true, // ne pas ajouter de tag si la valeur est égale à
}
}
},
proprietaire: {
key_converted: 'owner',
conditional_values: {
"Non renseigne": {
ignore_this_data: true, // ne pas ajouter de tag si la valeur est égale à
}
}
},
date_maj: 'check_date',
// ******* textes
commentaire: 'note',
surveillance: {
key_converted: 'surveillance',
ignore_if_falsy: true,
convert_to_boolean_value: true,
},
mobilier: {
key_converted: 'mobilier',
remove_original_key: true, // TODO trouver ce qui empêche la conversion quand remove_original_key est a true
conditional_values: {
"POTELET": {
tags_to_add: [
{
"bicycle_parking": "bollard"
},
]
},
"ARCEAU": {
tags_to_add: [
{
"bicycle_parking": "stands"
},
]
},
"RATELIER": {
tags_to_add: [
{
"bicycle_parking": "rack"
},
]
},
}
},
id_local: 'ref:FR:rouen_veloparking_id',
// acces_reglement: 'access',
}
}
export default mappingRouenParkingVelos;

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mappings/converters/configRouen_PAV.ts Normal file
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/**
* points d'apport volontaire de Rouen
*/
import MappingConfigType from "../mapping-config.type";
const MappingRouenPAV: MappingConfigType = {
config_name: "mappingRouen points d'apport volontaire",
config_author: "tykayn <contact@cipherbliss.com>",
default_properties_of_point: {
'amenity': 'recycling',
'recycling_type': 'container',
},
source: {
geojson_path: 'https://data.metropole-rouen-normandie.fr/api/explore/v2.1/catalog/datasets/donmetdec_pav/exports/geojson?lang=fr&timezone=Europe%2FBerlin',
url: 'https://data.metropole-rouen-normandie.fr/explore/dataset/donmetdec_pav/information/'
},
filters: {
// exclude_point_if_tag_not_empty: ['id_osm'], // on peut exclure des données converties celles qui sont déjà avec un identifiant openstreetmap afin de favoriser l'intégration san avoir à gérer les doublons
// offset: 50
},
add_not_mapped_tags_too: false,
boolean_keys: [
// "acces_reglement",
],
tags_to_ignore_if_value_is: ['Non renseigne'],
tags: {
// ******* nombres
pavtyp: {
remove_original_key:true,
conditional_values: {
"Emballages en verre": {
tags_to_add: {
'recycling:glass': 'yes'
}
},
"Emballages recyclables": {
tags_to_add: {
'recycling:pmd': 'yes' // https://wiki.openstreetmap.org/wiki/Key:recycling:pmd
}
},
"Ordures ménagères": {
tags_to_add: {
'amenity': 'waste_disposal'
}
}
}
},
date_maj: 'check_date',
// ******* textes
gml_id: 'ref:FR:Rouen:pav:gml_id',
objectid_1: 'ref:FR:Rouen:pav:object',
pavid: 'ref:FR:Rouen:pav:id',
pavnom: 'ref:FR:Rouen:pav:name',
commune: 'ref:FR:Rouen:commune',
}
}
export default MappingRouenPAV;

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/**
* caméras référencées sur le site de rouen
*
* certaines ont une précision "Caméra de sécurité sur borne escamotable"
* https://wiki.openstreetmap.org/wiki/Tag:man_made=surveillance
*/
import MappingConfigType from "../mapping-config.type";
const MappingSurveillanceRouen: MappingConfigType = {
config_name: "caméras de Rouen",
config_author: "tykayn <contact@cipherbliss.com>",
default_properties_of_point: {
'man_made ': 'surveillance',
},
source: {
// source faite à partir de data scraping du site français
geojson_path: 'https://umap.openstreetmap.fr/fr/datalayer/44208/f923d80e-2ede-4ab8-b883-a7646491c506/',
url: 'https://rouen.fr/videoprotection'
},
filters: {
// exclude_point_if_tag_not_empty: ['id_osm'], // on peut exclure des données converties celles qui sont déjà avec un identifiant openstreetmap afin de favoriser l'intégration san avoir à gérer les doublons
// offset: 1
},
add_not_mapped_tags_too: false,
boolean_keys: [],
tags_to_ignore_if_value_is: ['Non renseigne'],
tags: {
//
}
}
export default MappingSurveillanceRouen;

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mappings/converters/configTest.ts Normal file
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/**
* plan de conversion des clés du jeu de données vers les tags OSM
* détail dans le tableau
* https://wiki.openstreetmap.org/wiki/France/data.gouv.fr/Bornes_de_Recharge_pour_V%C3%A9hicules_%C3%89lectriques
*/
import MappingConfigType from "../mapping-config.type";
const MappingTest: MappingConfigType = {
config_name: 'testing config MappingTest',
config_author: 'tykayn <contact@cipherbliss.com>',
default_properties_of_point: {},
tags: {
nom_amenageur : 'name'
},
add_not_mapped_tags_too: false,
source: {
geojson_path: "",
url: ""
},
filters: {},
}
export default MappingTest;

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mappings/converters/config_toilettes.ts Normal file
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/**
* plan de conversion des clés du jeu de données vers les tags OSM
* détail dans le tableau
* https://wiki.openstreetmap.org/wiki/France/data.gouv.fr/Bornes_de_Recharge_pour_V%C3%A9hicules_%C3%89lectriques
*/
import MappingConfigType from "../mapping-config.type";
const MappingToilettes: MappingConfigType = {
config_name: "toilettes config for paris sanisettes",
config_author: "tykayn <contact@cipherbliss.com>",
default_properties_of_point: {
'amenity': 'toilets'
},
source: {
geojson_path: "etalab_data/toilettes_paris_datagouv.json",
url: 'https://opendata.paris.fr/api/explore/v2.1/catalog/datasets/sanisettesparis/exports/geojson?lang=fr&timezone=Europe%2FBerlin'
},
/**
* select only certain points from the source
*/
filters: {
enable_coordinates_filter: false,
enable_properties_filter: false,
// add only geojson points who are found having this regex in the zipcode properties
properties: {
// consolidated_code_postal: '^[75]'
}
},
add_not_mapped_tags_too: false,
tags: {
nom_operateur: 'operator',
telephone_operateur: 'phone',
contact_operateur: 'email', // ici, on souhaite convertir la clé
},
}
export default MappingToilettes;

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mappings/converters/mappingConfigIRVE_simple.ts Normal file
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/**
* plan de conversion des clés du jeu de données vers les tags OSM
* détail dans le tableau
* https://wiki.openstreetmap.org/wiki/France/data.gouv.fr/Bornes_de_Recharge_pour_V%C3%A9hicules_%C3%89lectriques
*/
const mappingIRVE:any = {
// ******* nombres
nbre_pdc: 'capacity',
amenity: 'amenity', // conserver le tag de base
capacity: 'capacity', // conserver le tag de base
nom_amenageur: 'operator',
siren_amenageur: 'owner:ref:FR:SIREN',
nom_operateur: 'operator',
telephone_operateur: 'phone',
// ici, on souhaite convertir la clé contact_operateur=bidule en email=bidule
contact_operateur: 'email',
id_station_itinerance: 'ref:EU:EVSE',
id_station_local: 'ref',
gratuit: 'fee',
paiement_acte: 'authentication:none',
reservation: 'reservation',
observations: 'note',
nom_station: 'name',
nom_enseigne: 'network',
// ******* dates
date_mise_en_service: 'start_date',
date_maj: 'source:date',
// ******** champs booléens
prise_type_ef: 'socket:typee',
prise_type_2: 'socket:type2',
prise_type_combo_ccs: 'socket:type2_combo',
prise_type_chademo: 'socket:chademo',
// ******** champs plus complexes
horaires: 'opening_hours', // déjà au bon format
}
export default mappingIRVE;

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mappings/engine.ts Normal file
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import custom_utils from './utils'
import MappingConfigType from "./mapping-config.type";
import Formatters from "./formatters";
const {debugLog} = custom_utils
let listOfBooleanKeys = [
"prise_type_ef",
"prise_type_2",
"prise_type_combo_ccs",
"prise_type_chademo",
"gratuit",
"paiement_acte",
"paiement_cb",
"cable_t2_attache"
]
function boolToAddable(someBooleanValue: boolean) {
return someBooleanValue ? 1 : 0
}
export default class {
mapping_config: any = {}
public stats: any;
truthyValues = [true, 'true', 'True', 'TRUE', '1', 'yes', 1]
falsyValues = [false, 'false', 'False', 'FALSE', '0', 'no', 0]
private jardinage = false;
private current_converted_geojson_point: any;
private current_geojson_point: any; // currently converting point
private list_of_points: any; // list of geojson points
constructor(mappingConfig: MappingConfigType) {
this.setConfig(mappingConfig)
this.stats = {
filtered_by_excluded_tags: 0,
phones_updated: 0,
power_output: 0,
phones_updated_list: [],
phones_not_updated: 0
}
}
setConfig(mappingConfig: MappingConfigType) {
debugLog('load config', mappingConfig.config_name)
debugLog('load config', mappingConfig.config_name)
this.mapping_config = mappingConfig
}
getConfig() {
return this.mapping_config
}
mapFeaturePoint(featurePointGeoJson: any) {
let geoJSONConvertedPoint: any = {}
geoJSONConvertedPoint.properties = {...this.mapping_config.default_properties_of_point}
geoJSONConvertedPoint.type = featurePointGeoJson.type
geoJSONConvertedPoint.geometry = featurePointGeoJson.geometry
this.current_converted_geojson_point = geoJSONConvertedPoint
return geoJSONConvertedPoint
}
/**
* TODO convert to mapping config property to transform_truthy
* @param pointKeyName
* @returns {boolean}
*/
isBooleanKey(pointKeyName: string): boolean {
return listOfBooleanKeys.indexOf(pointKeyName) !== -1
}
/**
* filter: reduce number of features
* @param offsetCount
* @param listOfFeatures
*/
filterFeaturesByOffset(offsetCount: number, listOfFeatures: any): Array<any> {
let filteredList = listOfFeatures
// TODO
return filteredList
}
/**
* filterFeaturesByPropertyRegex
* TODO
* @param propertyName
* @param criteriaRegex
* @param listOfFeatures
*/
filterFeaturesByPropertyRegex(propertyName: string, criteriaRegex: any, listOfFeatures: any) {
let filteredList = listOfFeatures.filter((feature: any) => {
return criteriaRegex.test(feature?.properties[propertyName])
})
return filteredList
}
/**
* filter a list of geojson points if one of the given exludedKeys is present in their properties.
* Example, we do not want to convert already present OSM point which have an osm_id value in their properties.
* @param list
* @param excludedKeys
*/
filterListOfPointsByExcludingIfKeyFilled(list: any, excludedKeys: Array<string>): any[] {
let newList: Array<any> = []
list.forEach((geojsonPoint: any) => {
let pointProperties = Object.keys(geojsonPoint.properties)
let addPoint = true;
excludedKeys.forEach((key: any) => {
debugLog(key, 'pointProperties[key]', pointProperties[key])
let foundProperty: string = pointProperties[key]
if (foundProperty && foundProperty !== 'null') {
addPoint = false
}
})
if (addPoint) {
// only add points that pass the not null filter
newList.push(geojsonPoint)
} else {
this.stats.filtered_by_excluded_tags++
}
})
return newList;
}
filterListOfPointsByExcludingIfMaxPowerIsLesserThan(minValue: number, list_of_points: any[]): any[] {
let newList: any[] = []
list_of_points.forEach((geojsonPoint: any) => {
let pointProperties = Object.keys(geojsonPoint.properties)
// trouver la valeur
// socket_output_find_correspondances
if (pointProperties.includes('puissance_nominale') &&
1 * (geojsonPoint.properties['puissance_nominale'].replace(' kW', '')) > minValue
) {
newList.push(geojsonPoint)
}
})
return newList;
}
/**
* retuns the converted element from mapping config if present, null otherwise
*/
mapElementFromConf(featurePoint: any): any {
debugLog('mapElementFromConf: mapElementFromConf', featurePoint)
if (!this.mapping_config) {
throw new Error('no config was loaded in the mapping engine. use setConfig(my_mapping_config) on this instance of mapping engine before using this. Your config should be typed to MappingConfigType Type.')
}
debugLog('mapElementFromConf: config_name', this.mapping_config.config_name)
let mappingKeys = Object.keys(this.mapping_config.tags)
let featurePointPropertiesKeys = []
if (this.mapping_config.osmose) {
// only creation of new points are handled by now [2023-10-07]
featurePointPropertiesKeys = Object.keys(featurePoint.properties.fixes[0][0].create)
// debugLog('featurePointPropertiesKeys', featurePointPropertiesKeys)
} else {
featurePointPropertiesKeys = Object.keys(featurePoint.properties)
}
debugLog('mapElementFromConf: ============= keys mappingKeys:', this.mapping_config.tags.length, mappingKeys.length)
debugLog('mapElementFromConf: ============= keys featurePointPropertiesKeys :', featurePoint.properties.length, featurePointPropertiesKeys.length)
let newProperties = {...this.mapping_config.default_properties_of_point}
// reinit properties of current point
let basePoint = Object.create(featurePoint)
basePoint.type = featurePoint.type
basePoint.geometry = featurePoint.geometry
basePoint.properties = {...this.mapping_config.default_properties_of_point}
// apply new properties if found in mapping config
featurePointPropertiesKeys.forEach(pointKeyName => {
debugLog('mapElementFromConf: convert', pointKeyName)
debugLog('mapElementFromConf: mapping keys:', mappingKeys)
this.convertProperty(pointKeyName, mappingKeys, featurePoint, newProperties)
})
basePoint.properties = newProperties
// debugLog('mapElementFromConf: basePoint', basePoint)
return basePoint
}
/**
* convertit une propriété en une autre selon la config de mapping
* @param pointKeyName
* @param mappingKeys
* @param featurePoint
* @param newProperties
*/
convertProperty(pointKeyName: string, mappingKeys: any, featurePoint: any, newProperties: any) {
this.current_geojson_point = featurePoint
let originalValue = ''
if (this.mapping_config.osmose) {
originalValue = featurePoint.properties.fixes[0][0].create[pointKeyName]
} else {
originalValue = featurePoint.properties[pointKeyName]
}
let intOriginalValue = parseInt(originalValue)
let mappingValueObject: any = '';
if (mappingKeys.indexOf(pointKeyName) !== -1) {
mappingValueObject = this.mapping_config.tags[pointKeyName]
debugLog('convertProperty: mappingValueObject ', mappingValueObject)
}
debugLog(' ------ convertProperty: pointKeyName', pointKeyName)
// debugLog('convertProperty: mappingKeys', mappingKeys)
let remove_original_key = false;
debugLog('tags_to_ignore_if_value_is', this.mapping_config.tags_to_ignore_if_value_is)
if (this.mapping_config.tags_to_ignore_if_value_is && this.mapping_config.tags_to_ignore_if_value_is.length && this.mapping_config.tags_to_ignore_if_value_is?.indexOf(originalValue) !== -1) {
debugLog('(x) => ignore', originalValue, ' in ', pointKeyName)
remove_original_key = true;
}
if (this.jardinage) {
debugLog(' ------ on fait du jardinage')
debugLog(' ------ mode mise en qualité activé')
debugLog(' ------ les données en entrée sont des infos geojson extraites depuis overpass turbo.')
debugLog(' ------ les clés des objets sont donc déjà dans le format de tag OSM,' +
'ne pas les convertir pour les mettre en qualité selon le modèle de mapping.')
}
if (this.mapping_config.add_not_mapped_tags_too && (mappingKeys.indexOf(pointKeyName) === -1)) {
/**
* add all unmapped tags is enabled
*/
debugLog(' ------ add all unmapped tags is enabled')
newProperties[pointKeyName] = originalValue;
} else {
/**
* only use existing keys
*/
debugLog("only use existing keys,", pointKeyName)
if (mappingKeys.indexOf(pointKeyName) !== -1) {
let valueConvertedFromMapping = featurePoint.properties[pointKeyName]
let keyConvertedFromMapping = mappingKeys[mappingKeys.indexOf(pointKeyName)]
let mappingConfigOfTag = this.mapping_config.tags[pointKeyName]
debugLog('========== mappingConfigOfTag', mappingConfigOfTag)
debugLog('convertProperty: found element', pointKeyName, '=>', keyConvertedFromMapping, 'value : ', valueConvertedFromMapping)
let convertedValue = originalValue
let typeOfConfigForKey = typeof mappingConfigOfTag
let isStringValue = typeOfConfigForKey === 'string'
let isConfigMappingObject = typeOfConfigForKey === 'object'
debugLog('convertProperty: - typeofValue', typeOfConfigForKey)
debugLog('convertProperty: - pointKeyName', pointKeyName)
debugLog('convertProperty: - valueConvertedFromMapping', valueConvertedFromMapping)
debugLog('typeof valueConvertedFromMapping === \'string\'', typeOfConfigForKey)
debugLog('convertProperty: isStringValue?', valueConvertedFromMapping, isStringValue)
debugLog('convertProperty: isStringValue?', valueConvertedFromMapping, isStringValue)
debugLog('mappingConfigOfTag', mappingConfigOfTag)
debugLog('typeOfConfigForKey', typeOfConfigForKey)
/**
* conversion si la clé à une config d'une string, on ne change que la clé, pas la valeur
*/
if (isStringValue) {
debugLog('convertProperty: -- string value')
debugLog('convertProperty: -- string value')
debugLog('convertProperty: -- simple conversion : ', pointKeyName, '=> ', mappingConfigOfTag, '_', originalValue, '=>', valueConvertedFromMapping)
debugLog('convertProperty: -- convertedValue', convertedValue)
convertedValue = valueConvertedFromMapping
if (convertedValue) {
newProperties[mappingConfigOfTag] = convertedValue
}
} else {
debugLog('convertProperty: no string value')
}
let configObject = mappingConfigOfTag
if (isConfigMappingObject) {
debugLog('convertProperty: is config object', configObject)
let newKey: any = '' + pointKeyName
if (configObject.key_converted) {
newKey = configObject.key_converted
debugLog('key_converted newKey', newKey)
}
if (configObject.transform_function) {
convertedValue = configObject.transform_function(originalValue)
}
if (configObject.truthy_value) {
// convertir la valeur, si elle est truthy, la transformer en ce que donne la propriété truthy_value
// exemple: le jeu de données dit que la colonne cable_t2_attache vaut "True", mais on veut le convertir en "1".
// on met donc truthy_value: '1'
debugLog('truthy_value', originalValue)
if (this.truthyValues.indexOf(originalValue) !== -1) {
convertedValue = configObject.truthy_value
}
}
if (configObject.falsy_value) {
if (this.falsyValues.indexOf(originalValue) !== -1) {
convertedValue = configObject.falsy_value
}
}
/**
* conversion booléenne
*/
if (mappingValueObject.convert_to_boolean_value) {
debugLog('convertProperty: is boolean_value_conversion')
convertedValue = this.convertToYesOrNo(originalValue)
} else {
debugLog('convertProperty: is NOT having boolean_value_conversion', mappingValueObject)
}
// gestion des puissances de bornes
// avec une fonction de transformation des valeurs
// parmi le domaine du jeu de données
// nécessite une clé conditionnelle à la valeur true d'autres clés converties.
if (configObject.socket_output_find_correspondances) {
// trouver à quel socket ça correspond
// si y'a plusieurs sockets, utiliser socket:max:output
let we_use_max_output = false;
let has_prise_type_2: boolean = this.isTruthyValue(this.current_geojson_point.properties.prise_type_2) || false
let has_prise_type_combo_ccs: boolean = this.isTruthyValue(this.current_geojson_point.properties.prise_type_combo_ccs) || false
let prise_type_chademo: boolean = this.isTruthyValue(this.current_geojson_point.properties.prise_type_chademo) || false
let prise_type_ef: boolean = this.isTruthyValue(this.current_geojson_point.properties.prise_type_ef) || false
let prise_type_e: boolean = this.isTruthyValue(this.current_geojson_point.properties.prise_type_e) || false
let prise_type_autre: boolean = this.isTruthyValue(this.current_geojson_point.properties.prise_type_autre) || false
let countOfSockets = (boolToAddable(has_prise_type_2) + boolToAddable(has_prise_type_combo_ccs) + boolToAddable(prise_type_chademo) +
boolToAddable(prise_type_ef) + boolToAddable(prise_type_autre) + boolToAddable(prise_type_e)
);
if (countOfSockets > 0) {
we_use_max_output = true;
}
// ajouter les tags de socket newProperties
let converted_value = originalValue.replace(/[^\d\.\,]/g, '').replace(',', '.')
let max_output = 401
// do not limit accepted values
let out = ''
if (intOriginalValue < max_output) {
// rajouter l'unité de puissance kW dans la valeur
out = converted_value + ' kW'
} else {
// prise en charge des valeurs en Watts et non en kW.
debugLog('too high kW value detected', originalValue)
if (intOriginalValue > 1000 && intOriginalValue < 401000) {
let kilowatts = (parseFloat(converted_value) / 1000).toFixed(2).replace('.00', '');
out = ('' + kilowatts + ' kW').replace('.00', '')
debugLog('valeurs en Watts out', out, 'original:', originalValue)
this.stats.power_output++
}
}
out = (out).replace('.00', '')
// debug land
if (has_prise_type_combo_ccs) {
newProperties['socket:type2_combo:output'] = out;
this.stats.power_output++
}
if (we_use_max_output) {
newProperties['charging_station:output'] = out;
} else {
if (has_prise_type_2 && prise_type_e) {
newProperties['socket:type_2:output'] = out;
this.stats.power_output++
debugLog('2 prises, attribuer la plus haute valeur à la type 2', out)
}
if (countOfSockets === 1) {
if (has_prise_type_2) {
newProperties['socket:type_2:output'] = out;
newProperties['socket:type_2'] = 1;
this.stats.power_output++
}
if (has_prise_type_combo_ccs) {
newProperties['socket:type2_combo:output'] = out;
newProperties['socket:type2_combo'] = 1;
this.stats.power_output++
}
if (prise_type_chademo) {
newProperties['socket:chademo:output'] = out;
newProperties['socket:chademo'] = 1;
this.stats.power_output++
}
if (prise_type_e) {
newProperties['socket:typee:output'] = out;
newProperties['socket:typee'] = 1;
this.stats.power_output++
}
} else {
debugLog('no sockets', this.current_geojson_point.properties.ref)
}
}
return out
}
if (configObject.invert_boolean_value) {
convertedValue = !this.convertToBoolean(originalValue) ? 'yes' : 'no'
debugLog('invert boolean', convertedValue, originalValue)
}
if (configObject.remove_stars) {
convertedValue = originalValue.replace('*', '')
debugLog('remove_stars', convertedValue, originalValue)
}
if (configObject.convert_to_phone) {
convertedValue = Formatters.convertToPhone(originalValue)
if (originalValue !== convertedValue) {
this.stats.phones_updated++
this.stats.phones_updated_list.push(convertedValue)
} else {
this.stats.phones_not_updated++
}
debugLog('convertedValue convert_to_phone', originalValue, '=>', convertedValue)
}
if (configObject.convert_to_name) {
convertedValue = Formatters.convertToName(originalValue)
}
if (configObject.remove_original_key) {
remove_original_key = true
}
if (configObject.ignore_if_falsy && this.falsyValues.indexOf(originalValue) !== -1) {
remove_original_key = true
}
if (configObject.ignore_if_truthy && this.truthyValues.indexOf(originalValue) !== -1) {
remove_original_key = true
}
/**
* config pour une clé
* nous pouvons renseigner une string ou un objet décrivant les transformations à réaliser
*/
if (configObject.conditional_values) {
// convert numbers from json to string to compare them correctly
originalValue = '' + originalValue
let keysConditionnalValues: any = Object.keys(configObject.conditional_values)
let isFoundValue = keysConditionnalValues.indexOf(originalValue)
let conditionnalConfig: any = configObject.conditional_values[keysConditionnalValues[isFoundValue]]
debugLog('convertProperty: conditional_values__________',
configObject.conditional_values)
debugLog('isFoundValue', isFoundValue, originalValue)
debugLog('keysConditionnalValues', keysConditionnalValues)
debugLog('-----++++++++ originalValue', originalValue)
debugLog('----------- isFoundValue', isFoundValue)
if (!remove_original_key) {
if (isFoundValue !== -1) {
debugLog('found condition', isFoundValue)
/** ----------------------
* gestion des valeurs conditionnelles
* ---------------------- */
debugLog('conditionnalConfig', conditionnalConfig)
if (conditionnalConfig.ignore_this_data) {
debugLog(`on ignore cette clé car sa valeur "${originalValue}" est à exclure: `, pointKeyName, '=>', newKey)
remove_original_key = true;
}
if (conditionnalConfig.truthy_value) {
// convertir la valeur, si elle est truthy, la transformer en ce que donne la propriété truthy_value
// exemple: le jeu de données dit que la colonne cable_t2_attache vaut "True", mais on veut le convertir en "1".
// on met donc truthy_value: '1'
if (this.truthyValues.indexOf(originalValue) !== -1) {
convertedValue = conditionnalConfig.truthy_value
}
}
if (conditionnalConfig.falsy_value) {
if (this.falsyValues.indexOf(originalValue) !== -1) {
convertedValue = conditionnalConfig.falsy_value
}
}
// use the value converted
else if (conditionnalConfig.value_converted) {
convertedValue = conditionnalConfig.value_converted
}
}
}
if (conditionnalConfig?.tags_to_add) {
debugLog('on ajoute des tags', conditionnalConfig.tags_to_add)
// on peut définir un ensemble de tags à rajouter
let tagKeys = Object.keys(conditionnalConfig.tags_to_add)
debugLog('conditionnalConfig.tags_to_add', conditionnalConfig.tags_to_add)
tagKeys.forEach((index: any) => {
debugLog('key', index)
debugLog('value', conditionnalConfig.tags_to_add[index])
newProperties[index] = conditionnalConfig.tags_to_add[index]
})
}
}
debugLog('convertProperty: convertedValue ==========> {', newKey, ':', convertedValue, '}')
debugLog(' =============== remove_original_key', newKey, remove_original_key)
let keysOfConfigObject = [];
let hasKeyIgnoreThisData = false;
if (configObject) {
keysOfConfigObject = Object.keys(configObject)
debugLog('keysOfConfigObject', keysOfConfigObject)
hasKeyIgnoreThisData = (keysOfConfigObject.indexOf('ignore_this_data') !== -1)
}
debugLog('remove_original_key && newKey && convertedValue && hasKeyIgnoreThisData', remove_original_key, newKey, convertedValue, hasKeyIgnoreThisData)
if (!remove_original_key && newKey && convertedValue && !hasKeyIgnoreThisData
) {
debugLog('convertedValue', convertedValue)
debugLog('convertProperty: added', newKey, (`${convertedValue}`).trim())
newProperties[newKey] = (`${convertedValue}`).trim()
}
}
} else {
debugLog('!!!!!! property not found in mappingKeys: ', pointKeyName)
}
}
debugLog('newProperties', newProperties)
return newProperties;
}
private isTruthyValue(someValue: string) {
let convertedValue;
if (this.truthyValues.indexOf(someValue) !== -1) {
convertedValue = true
}
if (this.falsyValues.indexOf(someValue) !== -1) {
convertedValue = false
}
return convertedValue
}
private convertToYesOrNo(originalValue: any) {
debugLog('convertProperty: ==========> original value', originalValue)
let convertedValue = '';
if (this.truthyValues.indexOf(originalValue) !== -1) {
convertedValue = 'yes'
} else {
debugLog('convertProperty: ==========> !!! NOT in truthy values', originalValue)
}
if (this.falsyValues.indexOf(originalValue) !== -1) {
convertedValue = 'no'
} else {
debugLog('convertProperty: ==========> !!! NOT in falsy values', originalValue)
}
return convertedValue;
}
private convertToBoolean(originalValue: any) {
debugLog('convertProperty: ==========> original value', originalValue)
let convertedValue;
if (this.truthyValues.indexOf(originalValue) !== -1) {
convertedValue = true
} else {
debugLog('convertProperty: ==========> !!! NOT in truthy values', originalValue)
}
if (this.falsyValues.indexOf(originalValue) !== -1) {
convertedValue = false
} else {
debugLog('convertProperty: ==========> !!! NOT in falsy values', originalValue)
}
return convertedValue;
}
}

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#!/bin/bash
# export depuis OSM des points
# "harassment_prevention=ask_angela"
# pour le monde entier
url='https://overpass-api.de/api/interpreter?data=[out:json][timeout:25];nwr["harassment_prevention"="ask_angela"];out+meta;'
export_file="ask_angela_points_from_openstreetmap"
source $www_folder/mapping-osm-geojson/update_scripts/functions.sh
extract_from_osm $url $export_file

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#!/bin/bash
# export depuis OSM des parking à vélo cargo
# cargo_bike=*
# en France
url='https://overpass-api.de/api/interpreter?data=[out:json][timeout:300];area(id:3602202162)->.searchArea;nwr["cargo_bike"](area.searchArea);out+geom;'
export_file="cargo_bike_zone_france_from_openstreetmap"
source $www_folder/mapping-osm-geojson/update_scripts/functions.sh
extract_from_osm $url $export_file

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#!/bin/bash
# export depuis OSM des points
# tout système produisant de l'énergie, pas seulement élec.
# pour le monde entier
echo -e "\n récupération de données depuis OpenStreetMap \n"
url='https://overpass-api.de/api/interpreter?data=[out:json][timeout:300];area(id:3602202162)->.searchArea;node["power"="generator"](area.searchArea);out+geom;'
export_file="centrales_zone_france_from_openstreetmap"
source $www_folder/mapping-osm-geojson/update_scripts/functions.sh
extract_from_osm $url $export_file

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#!/bin/bash
# export depuis OSM des points
# des espaces de coworking
# en France
url='https://overpass-api.de/api/interpreter?data=[out:json][timeout:300];area(id:3602202162)->.searchArea;node["amenity"="coworking_space"](area.searchArea);out+geom;'
export_file="coworking_zone_france_from_openstreetmap"
source $www_folder/mapping-osm-geojson/update_scripts/functions.sh
extract_from_osm $url $export_file

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import argparse
import json
import pandas as pd
# définir le parseur d'arguments
parser = argparse.ArgumentParser(description="Convertir un fichier GeoJSON en CSV et ajouter des colonnes latitude et longitude")
parser.add_argument("geojson", help="Le chemin du fichier GeoJSON à convertir")
parser.add_argument("-o", "--output", default=None, help="Le nom du fichier de sortie CSV (par défaut: le même nom que le fichier GeoJSON avec l'extension CSV)")
args = parser.parse_args()
# charger le fichier GeoJSON en tant que liste de features
with open(args.geojson, "r") as f:
data = json.load(f)
# afficher le décompte des éléments
print("Nombre d'éléments dans le fichier GeoJSON :", len(data["features"]))
# initialiser un ensemble pour stocker les clés de toutes les features
all_keys = set()
# parcourir chaque feature pour trouver les clés de tag
for feature in data["features"]:
# ajouter les clés de la feature à l'ensemble
all_keys.update(feature["properties"]["tags"].keys())
# convertir l'ensemble en liste et trier les clés
columns = sorted(list(all_keys))
# initialiser le dataframe avec les colonnes définies ci-dessus
df = pd.DataFrame(columns=["id", "latitude", "longitude"] + columns)
# parcourir chaque feature pour ajouter une nouvelle ligne au dataframe avec les valeurs de chaque tag
for feature in data["features"]:
# définir la latitude et la longitude selon la première coordonnée si la géométrie est de type Linestring
if feature["geometry"]["type"] == "LineString":
latitude = feature["geometry"]["coordinates"][0][1]
longitude = feature["geometry"]["coordinates"][0][0]
else:
latitude = feature["geometry"]["coordinates"][1]
longitude = feature["geometry"]["coordinates"][0]
row = {
"id": feature["properties"]["id"],
"latitude": latitude,
"longitude": longitude
}
# ajouter les valeurs de chaque tag à la ligne
for key in columns:
row[key] = feature["properties"]["tags"].get(key, "")
df = df._append(row, ignore_index=True)
# définir le nom du fichier de sortie CSV
if args.output:
output_file = args.output
else:
output_file = os.path.splitext(args.geojson)[0] + ".csv"
print('fichier csv converti : ', output_file)
# convertir le dataframe en CSV en incluant toutes les colonnes
df.to_csv(output_file, sep=";", index=False)

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#!/bin/bash
# export depuis OSM des points
# leisure=hackerspace
# en France
echo -e "\n récupération de données depuis OpenStreetMap \n"
url='https://overpass-api.de/api/interpreter?data=[out:json][timeout:300];area(id:3602202162)->.searchArea;nwr["leisure"="hackerspace"](area.searchArea);out+geom;'
export_file="hackerspace_zone_france_from_openstreetmap"
source $www_folder/mapping-osm-geojson/update_scripts/functions.sh
extract_from_osm $url $export_file

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#!/bin/bash
# export depuis OSM des hopitaux
# en France
url='https://overpass-api.de/api/interpreter?data=[out:json][timeout:300];area(id:3602202162)->.searchArea;nwr["amenity"="hospital"](area.searchArea);out+geom;'
export_file="hospitals_zone_france_from_openstreetmap"
source $www_folder/mapping-osm-geojson/update_scripts/functions.sh
extract_from_osm $url $export_file

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#!/bin/bash
# export depuis OSM des stations et bornes de recharges
# "amenity"="charging_station"
# en France
url='https://overpass-api.de/api/interpreter?data=[out:json][timeout:300];area(id:3602202162)->.searchArea;nwr["amenity"="charging_station"](area.searchArea);out+geom;'
export_file="irve_zone_france_from_openstreetmap"
source $www_folder/mapping-osm-geojson/update_scripts/functions.sh
extract_from_osm $url $export_file

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#!/bin/bash
# export depuis OSM des points d'apport volontaire
# amenity=recycling
# à Rouen
echo -e "\n récupération de données depuis OpenStreetMap \n"
url='https://overpass-api.de/api/interpreter?data=[out:json][timeout:300];area(id:3600075628)->.searchArea;nwr["amenity"="charging_station"](area.searchArea);out+geom;'
export_file="irve_zone_rouen_from_openstreetmap"
source $www_folder/mapping-osm-geojson/update_scripts/functions.sh
extract_from_osm $url $export_file

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#!/bin/bash
# export depuis OSM des mairies
# en France
url='https://overpass-api.de/api/interpreter?data=[out:json][timeout:300];area(id:3602202162)->.searchArea;nwr["amenity"="townhall"](area.searchArea);out+meta;'
export_file="mairies_points_from_openstreetmap"
source $www_folder/mapping-osm-geojson/update_scripts/functions.sh
extract_from_osm $url $export_file

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#!/bin/bash
# export depuis OSM des musées en France
echo -e "\n récupération de données depuis OpenStreetMap \n"
url='https://overpass-api.de/api/interpreter?data=[out:json][timeout:300];area(id:3602202162)->.searchArea;node["tourism"="museum"](area.searchArea);out+geom;'
export_file="museum_zone_france_from_openstreetmap"
source $www_folder/mapping-osm-geojson/update_scripts/functions.sh
extract_from_osm $url $export_file

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#!/bin/bash
# export depuis OSM des points d'apport volontaire
# amenity=recycling
# en France
echo -e "\n récupération de données depuis OpenStreetMap \n"
url='https://overpass-api.de/api/interpreter?data=[out:json][timeout:300];area(id:3602202162)->.searchArea;nwr["amenity"="recycling"](area.searchArea);out+geom;'
export_file="pav_zone_france_from_openstreetmap"
source $www_folder/mapping-osm-geojson/update_scripts/functions.sh
extract_from_osm $url $export_file

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#!/bin/bash
# export depuis OSM des points d'apport volontaire
# amenity=recycling
# à Rouen
echo -e "\n récupération de données depuis OpenStreetMap \n"
url='https://overpass-api.de/api/interpreter?data=[out:json][timeout:300];area(id:3600075628)->.searchArea;nwr["amenity"="recycling"](area.searchArea);out+geom;'
export_file="pav_zone_rouen_from_openstreetmap"
source $www_folder/mapping-osm-geojson/update_scripts/functions.sh
extract_from_osm $url $export_file

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#!/bin/bash
# export depuis OSM des points de planning familial du monde entier
# pour le monde entier
url='https://overpass-api.de/api/interpreter?data=[out:json][timeout:25];nwr["healthcare:speciality"="family_planning"];out+meta;'
export_file="planning_familial_points_from_openstreetmap"
source $www_folder/mapping-osm-geojson/update_scripts/functions.sh
extract_from_osm $url $export_file

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#!/bin/bash
# export depuis OSM des ponts qui ont un nom
# pour le monde entier
url='https://overpass-api.de/api/interpreter?data=[out:json][timeout:300];area(id:3602202162)->.searchArea;nwr["bridge"]["name"](area.searchArea);out+meta;'
export_file="ponts_points_from_openstreetmap"
source $www_folder/mapping-osm-geojson/update_scripts/functions.sh
extract_from_osm $url $export_file

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#!/bin/bash
# export depuis OSM des restaurants
# "amenity"="restaurant" en France
echo -e "\n récupération de données depuis OpenStreetMap \n"
url='https://overpass-api.de/api/interpreter?data=[out:json][timeout:300];area(id:3602202162)->.searchArea;nwr["amenity"="restaurant"](area.searchArea);out+geom;'
export_file="restaurant_zone_france_from_openstreetmap"
source $www_folder/mapping-osm-geojson/update_scripts/functions.sh
extract_from_osm $url $export_file

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#!/bin/bash
# export depuis OSM des caméras de surveillance
# "man_made"="surveillance"
# en France
url='https://overpass-api.de/api/interpreter?data=%5Bout%3Ajson%5D%5Btimeout%3A300%5D%3B%0Aarea(id%3A3602202162)-%3E.searchArea%3B%0Anode%5B%22man_made%22%3D%22surveillance%22%5D(area.searchArea)%3B%0Aout+geom%3B'
export_file="surveillance_zone_france_from_openstreetmap"
source $www_folder/mapping-osm-geojson/update_scripts/functions.sh
extract_from_osm $url $export_file

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#!/bin/bash
# export depuis OSM des points
# "amenity"="toilets"
# en France
echo -e "\n récupération de données depuis OpenStreetMap \n"
url='https://overpass-api.de/api/interpreter?data=[out:json][timeout:300];area(id:3602202162)->.searchArea;nwr["amenity"="toilets"](area.searchArea);out+geom;'
export_file="toilets_zone_france_from_openstreetmap"
source $www_folder/mapping-osm-geojson/update_scripts/functions.sh
extract_from_osm $url $export_file

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import custom_utils from "./utils";
const {debugLog,prefix_phone_fr_only} = custom_utils
/**
* Class that helps to convert values into predefined formats
*/
export default class Formatters {
static convertToPhone(originalValue: string) :string{
/**
* nettoyer les numéros de téléphone en ne gardant que les nombres et le préfixe de pays
*/
debugLog("convertToPhone:" , originalValue);
// debugLog('originalValue', originalValue.substring(1))
if (!originalValue) {
originalValue = ''
}
let original_without_spaces = originalValue.replace(' ', '')
let cleaned_value = `${original_without_spaces}`
cleaned_value = cleaned_value
.trim()
.replace('Stations-e', '')
.replace(/[a-zA-Zéèà]/ig, '')
.replace(/[\(\)\.\- ]/g, '')
let add_prefix = false;
if (
/^\d/.test(cleaned_value) &&
!/^\+33 /.test(original_without_spaces)
) {
add_prefix = true
}
cleaned_value = cleaned_value.replace('+33', '')
debugLog("convertToPhone: cleaned_value" , cleaned_value);
if (/^0/.test(cleaned_value)) {
cleaned_value = cleaned_value.substring(1)
}
let array_of_numbers = cleaned_value
.split('')
let ii = 0;
if (cleaned_value.length == 4) {
ii = 1
}
let convertedValue = ''
array_of_numbers.forEach((num: string) => {
if (ii % 2) {
convertedValue += ' ';
}
convertedValue += num;
ii++;
})
convertedValue = convertedValue.replace(' ', ' ').trim();
debugLog('convertedValue', convertedValue)
if (
/^\d/.test(convertedValue) &&
!/^\+33 /.test(convertedValue)
) {
add_prefix = true
}
if (add_prefix && prefix_phone_fr_only) {
convertedValue = `+33 ` + convertedValue
}
debugLog('phone: ', originalValue, '=>', convertedValue)
return ""+convertedValue;
}
static convertToName(originalValue: string) {
if (originalValue && originalValue.length) {
let tab = originalValue.toLowerCase().split('')
tab[0] = originalValue[0].toUpperCase()
return tab.join('');
}
return ''
}
}

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interface GeoJsonGeometry {
type: string,
coordinates: Array<number>,
}
interface GeoJsonProperties {
[key: string]: any,
}
interface GeoJsonFeature {
type: string,
geometry: GeoJsonGeometry,
properties: GeoJsonProperties,
}
export interface FeatureCollection {
type: string,
features: Array<GeoJsonFeature>,
}
export interface BoundingBoxCoordinatesType {
xMin: number,
xMax: number,
yMin: number,
yMax: number,
}
/**
* configuration to choose what point to exclude or include from geographic or properties hints
*/
export interface filteringConfig {
enable_coordinates_filter?: boolean;
enable_properties_filter?: boolean;
properties?: object;
bounding_box?: object;
offset?: number;
filter_points_lesser_than_NkW?: number; // filtrer les points qui ont moins de N kW dans la clé de puissance max
exclude_point_if_tag_not_empty?: Array<string>;
exclude_point_if_tag_truthy?: Array<string>;
exclude_point_if_tag_falsy?: Array<string>;
}
interface sourceConfig {
geojson_path: string; // the relative path to the geojson source file to analyse, from the root of this repository
url: string; // URL from where the geojson comes online, on a data platform. This URL should be fetchable to get the most recent data of the concerned dataset to convert.
overpass_query?: string; // query to get objects from OSM
}
export default interface MappingConfigType {
config_name: string, // descriptive name
config_author: string, // name and email for example
osmose?: boolean, // is the data from Osmose export
boolean_keys?: Array<string>, // what keys should be converted to boolean values
tags_to_ignore_if_value_is?: Array<string>, // list of strings for which we ignore the tags if they equal any of these
add_not_mapped_tags_too: boolean, // by default, we do not add tags from properties that we do not specify, set this to true to change it
default_properties_of_point?: object, // tag to add to every converted point by default
source: sourceConfig,
filters?: filteringConfig,
tags: FeaturePropertyMappingConfigType
}
/**
* configuration concernant toutes les valeurs
*/
export interface FeaturePropertyMappingConfigType {
convert_to_boolean_value?: boolean,
invert_boolean_value?: boolean,
remove_original_key?: boolean,
convert_to_phone?: boolean,
convert_to_name?: boolean,
ignore_if_falsy?: boolean,
ignore_if_truthy?: boolean,
remove_stars?: boolean,
conditional_values?: ConditionnalValuesConfigType,
transform_function?: Function,
[key: string]: any,
}
/**
* choix de conversion de la valeur originale selon des critères donnés
*/
export interface ConditionnalValuesConfigType {
key_converted?: string,
value_converted?: string,
truthy_value?: any,
falsy_value?: any, // si la valeur originale est falsy, la convertir en la valeur donnée ici
ignore_this_data?: boolean,
tags_to_add?: TagsToAddConfig,
transform_function?: Function,
}
export interface ConditionnalValuesType {
[key: string]: ConditionnalValuesConfigType,
}
interface OneOSMTag {
[key: string]: string,
}
export interface TagsToAddConfig {
tags_to_add: Array<OneOSMTag>
}

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import * as fs from 'node:fs'
let show_debug = 0
// show_debug = 1
let output_folder = 'output';
const prefix_phone_fr_only = true
// console.log('----------------------show_debug', show_debug)
/**
* wrapper de log qui se montre uniquemnt si show_debug a é activé
* @param args
*/
function debugLog(...args: any[]) {
if (show_debug) {
console.log('### debug: ',)
args.map((elem: any) => console.log(' ', elem))
}
}
let listOfBooleanKeys = [
"prise_type_ef",
"prise_type_2",
"prise_type_combo_ccs",
"prise_type_chademo",
"gratuit",
"paiement_acte",
"paiement_cb",
"cable_t2_attache"
]
/**
*
* @param pointKeyName
* @returns {boolean}
*/
function isBooleanKey(pointKeyName: string): boolean {
return listOfBooleanKeys.indexOf(pointKeyName) !== -1
}
/**
* crée un fichier dans le dossier par défaut, output
* @param fileName
* @param fileContent
*/
function writeFile(fileName: string, fileContent: any, outputPathOverride: string = '') {
if (outputPathOverride) {
output_folder = outputPathOverride
} else {
console.log('pas de output', outputPathOverride
)
}
let destination = `./${output_folder}/${fileName}`.replace('//', '/');
console.log('write file ', destination)
return fs.writeFile(
destination,
fileContent,
'utf8',
(err) => {
if (err) {
console.log(`Error writing file: ${err}`)
} else {
console.log(`File ${fileName} is written successfully!`)
}
}
)
}
export default {
debugLog,
isBooleanKey,
writeFile,
prefix_phone_fr_only
}

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site_name: Mapping OSM geojson

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{
"name": "rangement",
"version": "1.0.0",
"description": "mapping geojson tags to osm tags from json config",
"main": "main.ts",
"author": "tykayn contact+rangement@cipherbliss.com",
"license": "AGPL-3.0-or-later",
"repository": {
"type": "git",
"url": "https://forge.chapril.org/tykayn/scripts.git"
},
"scripts": {
"start": "ts-node convert_to_osm_tags.ts --engine",
"departments": "ts-node build_departments.ts",
"variance": "ts-node make_variance_from_csv.ts --source=etalab_data/irve_bornes_recharge/latest.csv",
"example": "ts-node convert_to_osm_tags.ts --engine=true --department=974 --source=\"./etalab_data/irve_bornes_recharge/all.json\"",
"irve": "ts-node convert_to_osm_tags.ts --engine=true --source=\"./etalab_data/irve_bornes_recharge/all.json\"",
"irve:up": "bash update_scripts/convert_irve.sh",
"irve:jb": "ts-node convert_to_osm_tags.ts --engine=true --source=\"./etalab_data/irve_bornes_recharge/irve-junglebus.csv\"",
"simple": "ts-node convert_to_osm_tags.ts",
"chargemap": "ts-node chargemap.ts",
"filter": "node convert_to_osm_tags.ts --department=974 --engine=true",
"test": "jest --coverage --watch",
"testing": "ts-node convert_to_osm_tags.ts --source=\"./data_other/testing/testing.json\" --testingConfig --engine"
},
"dependencies": {
"@types/geojson2osm": "^0.0.3",
"csv": "^6.3.1",
"geojsontoosm": "^0.0.3",
"minimist": "^1.2.8",
"node-fs": "^0.1.7"
},
"devDependencies": {
"@babel/core": "^7.22.9",
"@babel/preset-env": "^7.22.9",
"@babel/preset-typescript": "^7.22.5",
"@jest/globals": "^29.6.2",
"@types/minimist": "^1.2.2",
"@types/node": "^20.4.7",
"babel-jest": "^29.6.2",
"jest": "^29.6.2",
"loglevel": "^1.8.1",
"nodemon": "^2.0.22",
"ts-jest": "^29.1.1",
"ts-node": "^10.9.1",
"tslib": "^2.6.1",
"typescript": "^5.1.6"
},
"packageManager": "pnpm@8.15.1+sha512.831cf4c5f8b8374af71521d4d153db49d7086de615c2af7cb5e9d7eb8ba630ddac46fea495d643e552ef2e68a3aa99a3e5e9fbee8696702967504df5c59cb273"
}

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import json
import sys
import json
# examiner un jeu de données geojson, et proposer des tags à mettre dans une config
# comme celle ci mappings/converters/configIRVE.ts
#
# exemple de lancement de commande:
# python propose_mapping_from_data.py mon_fichier.geojson
# Vérifie si un argument est fourni
if len(sys.argv) < 2:
print("Usage: python propose_mapping_from_data.py <geojson_file>")
sys.exit(1)
# Ouvre le fichier GeoJSON donné
with open(sys.argv[1]) as f:
data = json.load(f)
# Extraire les propriétés de tous les points de la FeatureCollection
properties = []
for feature in data['features']:
props = feature['properties']
properties.extend(props.keys())
# Créer un dictionnaire avec toutes les clés comme clés et des valeurs par défaut vides
defaults = {prop: '' for prop in properties}
# Remplacer les clés contenant "web" ou "téléphone" par "contact:website" ou "contact:phone"
defaults.update({prop: 'contact:website' if 'web' in prop else 'contact:phone' if 'téléphone' in prop else '' for prop in properties})
# Convertir le dictionnaire en JSON et l'afficher
print(json.dumps(defaults, indent=2))

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import MappingConfigType from "../../mappings/mapping-config.type";
/**
* configurations de mapping pour les cas de tests
*/
export const mappingRemoveAll: MappingConfigType = {
config_name: 'testing config mappingRemoveAll',
config_author: 'tykayn <contact@cipherbliss.com>',
default_properties_of_point: {},
tags: {},
add_not_mapped_tags_too: false,
source: {
geojson_path: "",
url: ""
},
filters: {},
}
export const mappingSame: MappingConfigType = {
config_name: 'testing config mappingSame',
config_author: 'tykayn <contact@cipherbliss.com>',
default_properties_of_point: {},
tags: {
equal: 'equal'
},
add_not_mapped_tags_too: false,
source: {
geojson_path: "",
url: ""
},
filters: {},
}
export const mappingName: MappingConfigType = {
config_name: 'testing config mappingName',
config_author: 'tykayn <contact@cipherbliss.com>',
default_properties_of_point: {},
add_not_mapped_tags_too: false,
tags: {
nom_amenageur: 'name'
},
source: {
geojson_path: "",
url: ""
},
filters: {},
}
export const mappingPhone: MappingConfigType = {
config_name: 'testing config mappingPhone',
config_author: 'tykayn <contact@cipherbliss.com>',
default_properties_of_point: {},
tags: {
telephone_operateur: {
key_converted: 'phone',
convert_to_phone: true, // convertit en yes ou no
},
},
add_not_mapped_tags_too: false,
source: {
geojson_path: "",
url: ""
},
filters: {},
}
export const mappingBoolean: MappingConfigType = {
config_name: 'testing config mappingBoolean',
config_author: 'tykayn <contact@cipherbliss.com>',
default_properties_of_point: {},
tags: {
consolidated_is_lon_lat_correct: {
convert_to_boolean_value: true,
},
},
add_not_mapped_tags_too: false,
source: {
geojson_path: "",
url: ""
},
filters: {},
}
export const mappingTruthy: MappingConfigType = {
config_name: 'testing config mappingTruthy',
config_author: 'tykayn <contact@cipherbliss.com>',
default_properties_of_point: {},
tags: {
consolidated_is_lon_lat_correct: {
truthy_value: "succès",
},
},
add_not_mapped_tags_too: false,
source: {
geojson_path: "",
url: ""
},
filters: {},
}
export const mappingFalsy: MappingConfigType = {
config_name: 'testing config mappingFalsy',
config_author: 'tykayn <contact@cipherbliss.com>',
default_properties_of_point: {},
tags: {
consolidated_city: {
falsy_value: "pas ouf succès",
},
},
add_not_mapped_tags_too: false,
source: {
geojson_path: "",
url: ""
},
filters: {},
}
export const mappingIgnoreFalsy: MappingConfigType = {
config_name: 'testing config mappingIgnore',
config_author: 'tykayn <contact@cipherbliss.com>',
default_properties_of_point: {},
tags: {
consolidated_city: {
ignore_if_falsy: true,
},
},
add_not_mapped_tags_too: false,
source: {
geojson_path: "",
url: ""
},
filters: {},
}
export const mappingIgnoreTruthy: MappingConfigType = {
config_name: 'testing config mappingIgnore',
config_author: 'tykayn <contact@cipherbliss.com>',
default_properties_of_point: {},
tags: {
consolidated_is_lon_lat_correct: {
ignore_if_truthy: true,
},
},
add_not_mapped_tags_too: false,
source: {
geojson_path: "",
url: ""
},
filters: {},
}

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{
"type": "FeatureCollection",
"features": [
{
"type": "Feature",
"geometry": {
"type": "Point",
"coordinates": [
4.822159,
45.635079
]
},
"properties": {
"nom_amenageur": "Bob",
"siren_amenageur": "891624884",
"telephone_operateur": "0123456789",
"equal": "same value",
"consolidated_commune": "S\u00e9r\u00e9zin-du-Rh\u00f4ne",
"consolidated_is_lon_lat_correct": true,
"consolidated_city": false
}
}
]
}

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import mapping_engine from '../mappings/engine.ts'
import {
mappingPhone,
mappingRemoveAll,
mappingBoolean,
mappingName,
mappingSame, mappingTruthy, mappingFalsy, mappingIgnoreFalsy, mappingIgnoreTruthy
} from './data/mappings_to_test'
const testingGeoJson = require('./data/testing.json')
// import { describe, expect, test } from '@jest/globals'
describe('mapping properties with rich mapping engine', () => {
// test('do not add properties at all when there is nothing in tags of the mapping config', () => {
//
// })
let feature_to_test = testingGeoJson.features[0]
test('remove all properties when mapping says so', () => {
let Mapping_engine = new mapping_engine(mappingRemoveAll)
let mapped_point = Mapping_engine.mapElementFromConf(feature_to_test)
expect(mapped_point).toBeTruthy()
expect(Object.keys(mapped_point.properties)).toStrictEqual([])
})
test('maps simple key to key, and keep the same value', () => {
let Mapping_engine = new mapping_engine(mappingSame)
let newProperties = Mapping_engine.convertProperty('equal',
Object.keys(mappingSame.tags),
feature_to_test,
mappingSame.default_properties_of_point )
expect(newProperties).toStrictEqual({
equal : "same value"
})
})
test('retrieve config name in mapping engine', () => {
let Mapping_engine = new mapping_engine(mappingRemoveAll)
expect(Mapping_engine.getConfig().config_name).toBe('testing config mappingRemoveAll')
})
test('maps nom_amenageur to name, and keep the same value', () => {
let Mapping_engine = new mapping_engine(mappingName)
let newProperties = Mapping_engine.convertProperty('nom_amenageur',Object.keys(mappingName.tags),feature_to_test,mappingName.default_properties_of_point )
expect(Mapping_engine.getConfig().config_name).toBe('testing config mappingName')
expect(newProperties).toStrictEqual({
name : "Bob"
})
})
test('ignore one value if it is truthy', () => {
let Mapping_engine = new mapping_engine(mappingIgnoreTruthy)
let mapped_point = Mapping_engine.mapElementFromConf(feature_to_test)
expect(mapped_point.properties).toStrictEqual({})
})
test('ignore one value if it is falsy', () => {
let Mapping_engine = new mapping_engine(mappingIgnoreFalsy)
let mapped_point = Mapping_engine.mapElementFromConf(feature_to_test)
expect(mapped_point.properties).toStrictEqual({})
})
// test('conditional value', () => { })
// test('conditional transform', () => { })
test('conditional truthy transform', () => {
let Mapping_engine = new mapping_engine(mappingTruthy)
let mapped_point = Mapping_engine.mapElementFromConf(feature_to_test)
expect(mapped_point.properties).toStrictEqual({ consolidated_is_lon_lat_correct: 'succès' })
})
test('conditional falsy transform', () => {
let Mapping_engine = new mapping_engine(mappingFalsy)
let mapped_point = Mapping_engine.mapElementFromConf(feature_to_test)
expect(mapped_point.properties).toStrictEqual({ consolidated_city: 'pas ouf succès' })
})
test('conditional boolean transform', () => {
let Mapping_engine = new mapping_engine(mappingBoolean)
let mapped_point = Mapping_engine.mapElementFromConf(feature_to_test)
expect(mapped_point.properties).toStrictEqual({ consolidated_is_lon_lat_correct: 'yes' })
})
test('conditional phone transform', () => {
let Mapping_engine = new mapping_engine(mappingPhone)
let mapped_point = Mapping_engine.mapElementFromConf(feature_to_test)
let expected_converted_phone = '+33 1 23 45 67 89'
expect(mapped_point.properties).toStrictEqual({ phone: expected_converted_phone })
feature_to_test.properties.telephone_operateur = '3615'
expected_converted_phone = '+33 36 15'
mapped_point = Mapping_engine.mapElementFromConf(feature_to_test)
expect(mapped_point.properties).toStrictEqual({ phone: expected_converted_phone })
feature_to_test.properties.telephone_operateur = '+33 6 12928883'
expected_converted_phone = '+33 6 12 92 88 83'
mapped_point = Mapping_engine.mapElementFromConf(feature_to_test)
expect(mapped_point.properties).toStrictEqual({ phone: expected_converted_phone })
feature_to_test.properties.telephone_operateur = '+(33)-(9)-69366018'
expected_converted_phone = '+33 9 69 36 60 18'
mapped_point = Mapping_engine.mapElementFromConf(feature_to_test)
expect(mapped_point.properties).toStrictEqual({ phone: expected_converted_phone })
feature_to_test.properties.telephone_operateur = '0811 69 06 06'
expected_converted_phone = '+33 8 11 69 06 06'
mapped_point = Mapping_engine.mapElementFromConf(feature_to_test)
expect(mapped_point.properties).toStrictEqual({ phone: expected_converted_phone })
feature_to_test.properties.telephone_operateur = '+ 33 1 30 31 30 46 (numéro unique)'
expected_converted_phone = '+33 1 30 31 30 46'
mapped_point = Mapping_engine.mapElementFromConf(feature_to_test)
expect(mapped_point.properties).toStrictEqual({ phone: expected_converted_phone })
feature_to_test.properties.telephone_operateur = '+ 3 3 1 3 0 3 13046 (numéro unique)'
expected_converted_phone = '+33 1 30 31 30 46'
mapped_point = Mapping_engine.mapElementFromConf(feature_to_test)
expect(mapped_point.properties).toStrictEqual({ phone: expected_converted_phone })
feature_to_test.properties.telephone_operateur = '3 56 80 09'
expected_converted_phone = '+33 3 56 80 09'
mapped_point = Mapping_engine.mapElementFromConf(feature_to_test)
expect(mapped_point.properties).toStrictEqual({ phone: expected_converted_phone })
feature_to_test.properties.telephone_operateur = '+ 33 1 30 31 30 46 (numéro unique)'
expected_converted_phone = '+33 1 30 31 30 46'
mapped_point = Mapping_engine.mapElementFromConf(feature_to_test)
expect(mapped_point.properties).toStrictEqual({ phone: expected_converted_phone })
feature_to_test.properties.telephone_operateur = 'Stations-e'
mapped_point = Mapping_engine.mapElementFromConf(feature_to_test)
expect(mapped_point.properties).toStrictEqual({ })
feature_to_test.properties.telephone_operateur = '+33 0 7 66 38 74 96'
expected_converted_phone = '+33 7 66 38 74 96'
mapped_point = Mapping_engine.mapElementFromConf(feature_to_test)
expect(mapped_point.properties).toStrictEqual({ phone: expected_converted_phone })
feature_to_test.properties.telephone_operateur = '+ 33 1 30 31 30 46 (numéro unique)'
expected_converted_phone = '+33 1 30 31 30 46'
mapped_point = Mapping_engine.mapElementFromConf(feature_to_test)
expect(mapped_point.properties).toStrictEqual({ phone: expected_converted_phone })
// +19 0142056650;+19 0664534050
})
})
xdescribe('filters points', () => {
test('filter no points', () => { })
test('filter only one point', () => { })
test('filter X number of points', () => { })
test('filter city points', () => { })
test('filter bounding box', () => { })
test('filter combo, city', () => { })
test('filter combo, city + bbox', () => { })
test('filter combo, city + bbox + offset', () => { })
})
/**
* thats a roadmap, yes
*/
xdescribe('infer domain of values from csv file', () => {
test('gets the list of unique values in column', () => { })
})
xdescribe('infer domain of values from geojson file', () => {
test('gets the list of unique values in column', () => { })
})
xdescribe('build mapping engine config from unique values', () => {
test('builds a valid mapping config', () => { })
})

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module.exports= {
"compilerOptions": {
"outDir": "build/dist",
"module": "esnext",
"target": "es2020",
"lib": ["esnext", "dom"],
"sourceMap": true,
"allowJs": true,
"jsx": "react",
"moduleResolution": "node",
"rootDir": "src",
"forceConsistentCasingInFileNames": true,
"noImplicitReturns": true,
"noImplicitThis": true,
"noImplicitAny": false, //here
"strictNullChecks": true,
"suppressImplicitAnyIndexErrors": true,
"noUnusedLocals": true,
"resolveJsonModule": true,
"esModuleInterop": true,
"noUnusedParameters": true
},
"exclude": [
"node_modules",
"build",
"scripts",
"acceptance-tests",
"webpack",
"jest",
"src/setupTests.ts"
]
}

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#!/bin/bash
# convertir tous les jeux de données présents pour AskAngela
# toulouse
ts-node convert_to_osm_tags.ts --source=etalab_data/askangela/toulouse_askangela.json --output-file=toulouse_askangela.json --engine-config=MappingAskAngela
#bordeaux
ts-node convert_to_osm_tags.ts --source=etalab_data/askangela/bordeaux_askangela.json --output-file=bordeaux_askangela.json --engine-config=MappingAskAngela
# poitiers
ts-node convert_to_osm_tags.ts --source=etalab_data/askangela/poitiers_askangela.json --output-file=poitiers_askangela.json --engine-config=MappingAskAngela
# lyon
ts-node convert_to_osm_tags.ts --source=etalab_data/askangela/lyon_askangela.json --output-file=lyon_askangela.json --engine-config=MappingAskAngela

35
update_scripts/convert_data.sh Executable file
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#!/bin/bash
# get the updated geojson
#wget https://www.data.gouv.fr/fr/datasets/r/7eee8f09-5d1b-4f48-a304-5e99e8da1e26 -P ./etalab_data -O ./etalab_data/all.json
#wget https://www.data.gouv.fr/fr/datasets/r/8d9398ae-3037-48b2-be19-412c24561fbb -P ./etalab_data -O ./etalab_data/all.csv
# https://www.data.gouv.fr/fr/datasets/r/8d9398ae-3037-48b2-be19-412c24561fbb pour le jeu de données irve schema v2, non utilisé dans ce script
# filter its tags
echo "refresh de la data"
echo " ce script utilise plusieurs dépendances: nvm, pnpm, geojsontoosm "
echo " c'est parti "
nvm use stable
pnpm i
pnpm start
# convert the new geojson to osm file
geojsontoosm etalab_data/all.json > osm_output/bornes-irve-all-from-etalab-opendata.osm
geojsontoosm output/my_converted_data_set_filtered_zipcode_91.json > osm_output/bornes-irve-filetered-from-etalab-opendata.osm
echo ' conversion faite.'
du -sch osm_output/bornes-irve-filetered-from-etalab-opendata.osm
echo ""
echo " vous pouvez ouvrir JOSM et mettre dedans les fichiers osm pour tenter une conflation
osm_output/bornes-irve-filetered-from-etalab-opendata.osm
osm_output/bornes-présentes-dans-osm.osm
pour mettre en valeur les données manquantes, vous pouvez sélectionner toutes les données existantes et rendre actif le calque de nouvelles données.
Cela fera des points de couleur sur fond de ronds plus gros en gris. Les points de couleur non entourés sur le fond de ronds plus gros sont à importer.
vérifiez ensuite les données du fichier osm en cliquant sur un point du calque bornes-irve-filetered-from-etalab-opendata.osm
"
# done

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#!/bin/bash
echo "convertir les fichiers de données depuis etalab_data/irve_bornes_recharge en fichier osm "
overpass_website="https://overpass-api.de/api/interpreter"
# personnaliser les scripts:
# aire Essonne: id 3600007401
# aire IDF: id 3600008649
# aire FR: id 3602202162
output_file_name='irve_osm_latest'
echo " - mapping du fichier IRVE publié par Etalab "
ts-node convert_to_osm_tags.ts --source="etalab_data/irve_bornes_recharge/latest.json" --output-file="_irve-latest-etalab.geojson" --engine-config=mappingConfigIRVE
echo " - mapping des analyses Osmose sur l'item 8411 (charging_station)"
ts-node convert_to_osm_tags.ts --osmose=true --source="etalab_data/irve_bornes_recharge/osmose-item-irve-8411-intégrables.json" --output-file="irve-latest-osmose.geojson" --engine-config=mappingConfigIRVE
echo "fichier généré: $PWD/output/converted__irve-latest-etalab.json"
cd update_scripts

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#!/bin/bash
# convertir la liste de planing familial
ts-node convert_to_osm_tags.ts --source=etalab_data/planing_familial/antennes_planning_familial.json --output-file=antennes_planning_familial.geojson --engine-config=MappingPlanningFamlial

5
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#!/bin/bash
# convertir tous les jeux de données présents pour AskAngela
# rouen
ts-node convert_to_osm_tags.ts --source=etalab_data/recycling/rouen_pav.geojson --output-file=rouen_pav.json --engine-config=MappingRouenPAV

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update_scripts/convert_surveillance_rouen.sh Executable file
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#!/bin/bash
echo "convertir les fichiers de données en fichier geojson pour JOSM "
output_file_name='rouen_surveillance_from_umap.geojson'
mappingType='MappingSurveillanceRouen'
ts-node convert_to_osm_tags.ts --source="etalab_data/surveillance/rouen_surveillance.json" --output-file="$output_file_name" --engine-config="$mappingType"
echo "fichier généré: $PWD/output/$output_file_name"

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#!/usr/bin/bash
# fonction d'extraction d'une requête overpass et conversion du fichier de sortie
extract_from_osm(){
overpass_query=$1
file_name=$2
echo -e "extraction de $file_name"
echo -e "requête: \n $overpass_query"
echo -e "\n récupération de données depuis OpenStreetMap \n"
echo " export osm de: $export_file"
# Télécharger le fichier GeoJSON
curl -X GET -o "$export_file.json" -g $url
echo -e "\n Curl OK \n"
date
echo -e "nombre de points extraits depuis overpass turbo :"
jq '.elements | length' "$export_file.json"
# on garde la version OSM brute des données extraites
cp "$export_file.json" "$www_folder/mapping-osm-geojson/osm_output/$export_file.osm.json"
# on convertir en geojson
osm2geojson -q -i 2 --reader json "$export_file.json" "$export_file.geojson" -f
echo -e "\n -> fichier converti: $export_file.geojson "
# on déplace dans le dossier osm_output les versions brutes et converties
mv "$export_file.geojson" "$www_folder/mapping-osm-geojson/osm_output/$export_file.geojson"
echo " -> fichier placé dans $www_folder/mapping-osm-geojson/osm_output/$export_file.geojson "
# on convertit le geojson en csv
python3 "$www_folder/mapping-osm-geojson//mappings/extractors/geojson_to_csv.py" "$www_folder/mapping-osm-geojson/osm_output/$export_file.geojson" -o "$www_folder/mapping-osm-geojson/osm_output/$export_file.csv"
rm "$export_file.json"
echo "nombre de features dans l'export geojson :"
jq '.features | length' "$www_folder/mapping-osm-geojson/osm_output/$export_file.geojson"
}
echo "fonction d'extraction depuis OSM chargée"
export extract_from_osm

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#!/bin/bash
# get the updated geojson
# personnaliser les scripts:
# aire Essonne: id 3600007401
# aire IDF: id 3600008649
# aire FR: id 3602202162
##################
## IRVE data
##################
echo "- récupérer les infos de bornes de recharge électrique"
wget https://www.data.gouv.fr/fr/datasets/r/7eee8f09-5d1b-4f48-a304-5e99e8da1e26 -O "latest.json"
wget https://www.data.gouv.fr/fr/datasets/r/8d9398ae-3037-48b2-be19-412c24561fbb -O "latest.csv"
# wget https://www.data.gouv.fr/fr/datasets/r/b9731c6f-c0d7-422e-9e1c-19edd51687ce -O "finess_idf.json"
echo "- OK IRVE"
echo "- récupérer les données présentes dans OpenStreetMap"
curl --header "Content-Type: plain/text" --data @content_irve_geojson.txt --trace-ascii website-data.log "https://overpass-api.de/api/interpreter" > "irve_osm_latest.geojson"
echo "- récupérer les données présentes dans Osmose"
wget "https://osmose.openstreetmap.fr/api/0.3/issues.geojson?full=true&status=open&item=8410&limit=20000" -O "osmose-item-irve-8411-intégrables.json"
echo "- OK Osmose"
##################
# moving datasets to the source folder etalab_data
##################
echo " - déplacement des datasets des IRVE dans le dossier etalab_data/irve_bornes_recharge"
mv latest.json ../etalab_data/irve_bornes_recharge/
#mv finess_idf.json ../etalab_data/finess/
mv irve_osm_latest.geojson ../etalab_data/irve_bornes_recharge/
mv clean_french_irve.csv ../etalab_data/irve_bornes_recharge/
mv osmose-item-irve-8411-intégrables.json ../etalab_data/irve_bornes_recharge/
##################
# other sources of data should be placed in data_other folder
##################
echo "- récupérer les données de cyclabilité d'Issy"
wget "https://data.issy.com/api/explore/v2.1/catalog/datasets/parkings-2-roues/exports/geojson?lang=fr&timezone=Europe%2FBerlin" -O "issy_les_mx_cyclabilité.json"
echo "- récupérer les données des arbres d'Issy"
wget "https://data.issy.com/api/explore/v2.1/catalog/datasets/arbres-remarquables-issy-les-moulineaux/exports/geojson?lang=fr&timezone=Europe%2FBerlin" -O "issy_les_mx_arbres.json"
echo "- récupérer les données de cyclabilité de Rouen"
wget "https://data.metropole-rouen-normandie.fr/api/explore/v2.1/catalog/datasets/liste-des-stationnements-cyclables-metropole-rouen-normandie/exports/geojson?lang=fr&timezone=Europe%2FBerlin" -O "rouen_parking_velos.json"
mv "issy_les_mx_arbres.json" ../data_other/arbres/issy_les_mx_arbres.json
mv "geojson?lang=fr" ../data_other/cyclabilité/issy_les_mx_cyclabilité.json
mv "rouen_parking_velos.json" ../data_other/cyclabilité/rouen_parking_velos.json
# clean logs and finish
rm website-data.log
cd ..
echo "- refresh de la data OK"

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/**
prendre un CSV,
examiner toutes les colonnes et leurs valeurs,
garder en mémoire les valeurs uniques de chaque colonne
faire un nouveau csv qui ne montre que les valeurs uniques pour chacune des colonnes
et qui compte le nombre de valeurs
**/
import utils from '../mappings/utils'
import {parse} from 'csv'
const fs = require('fs')
const minimist = require('minimist')
interface VarianceType {
[key: string]: Array<string>
}
let csv_content = 'variance de dataset\n';
let separator = ';';
// let columns_headings = [];
let data_variance: VarianceType = {};
const inputPath = '../etalab_data/arbres/arbres_ech.json'
// const inputPath = './etalab_data/small.csv'
let columns_headings: Array<string> = [];
let lines_count = 0;
let longest_variance_count = 0;
console.log('open file ', inputPath)
fs.readFile(inputPath, function (err: any, fileData: any) {
if (err) {
throw new Error(err)
} else {
parse(fileData, {columns: false, trim: true}, function (err: any, rows: any) {
if(err){
throw new Error(err)
}
console.log('line ', lines_count)
console.log('rows', rows)
console.log('longest_variance_count', longest_variance_count)
})
}
console.log('parsing done')
})
/**
* écrit un csv avec les données de variance du dataset donné
*/
function writeCSVVariance() {
let csv_content = ';variance de ' + inputPath + ';' + new Date() + '\n'
let columns = Object.keys(data_variance);
// add headings
columns_headings.forEach((heading: string) => {
csv_content = csv_content + separator + heading
})
csv_content = csv_content + '\n'
// add max length of variance for each column
let ii = 0
columns.forEach((column: string) => {
// console.log('column', column, data_variance[column].length)
csv_content = csv_content + separator + data_variance[column].length
ii++
})
csv_content = csv_content + '\n\n'
// add content of values
for (let ii = 0; ii < longest_variance_count; ii++) {
csv_content = csv_content + '\n'
columns.forEach((column: any) => {
if (ii < data_variance[column].length) {
let currentValue = data_variance[column][ii]
csv_content = csv_content + separator + currentValue
} else {
csv_content = csv_content + separator
}
})
}
return csv_content;
}

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import osm2geojson

19
update_scripts/publish_to_datagouv.sh Normal file
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#!/bin/bash
# hackerspaces : https://www.data.gouv.fr/fr/admin/dataset/671f6e8fa0f72ffb985b07b3/
# nécessite la package python pip "httpie"
source $HOME/Nextcloud/ressources/workflow_nextcloud/secrets_vars.sh
echo "mise à jour des hackerspaces"
http -f POST $API/datasets/$DATASET_HACKERSPACE/resources/$RESOURCE_HACKERSPACE/upload/ X-Api-Key:$API_KEY file@$HACKERSPACE_FILEPATH
echo "mise à jour des ask angela"
http -f POST $API/datasets/$DATASET_ASKANGELA/resources/$RESOURCE_ASKANGELA_GEOJSON/upload/ X-Api-Key:$API_KEY file@$ASKANGELA_FILEPATH_GEOJSON
http -f POST $API/datasets/$DATASET_ASKANGELA/resources/$RESOURCE_ASKANGELA_CSV/upload/ X-Api-Key:$API_KEY file@$ASKANGELA_FILEPATH_CSV
echo "mise à jour des musées"
http -f POST "$API/datasets/$DATASET_MUSEUMS/resources/$RESOURCE_MUSEUMS/upload/" X-Api-Key:$API_KEY file@$MUSEUMS_FILEPATH
echo "mise à jour des parking cargo"
http -f POST "$API/datasets/$DATASET_CARGO/resources/$RESOURCE_CARGO/upload/" X-Api-Key:$API_KEY file@$CARGO_FILEPATH

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update_scripts/queries_overpass/content_irve_csv.txt Normal file
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[out:csv(::id,::uid,::user,::changeset,::lon,::lat,'addr:postcode','addr:city',covered,layer,charging_type,'current:ac','current:dc','charging_station:output',capacity,voltage,amperage,socket,'note:location',access,charging_type,name,owner,network,operator,'operator:wikidata','operator:wikipedia','owner:ref:FR:SIREN',ref,'ref:EU:EVSE','email','contact:email','contact:phone',phone,contact,'socket:typee','socket:schuko','socket:type1','socket:type2','socket:type2:output','socket:type2_cable','socket:type2_combo','socket:type2_combo:output','socket:type3c','socket:type3c:output','socket:chademo','socket:chademo:output',fee,charge,'payment:contactless','parking:fee','payment:app','payment:credit_cards',reservation,authentication,'authentication:nfc','authentication:membership_card','authentication:none',bicycle,scooter,bus,hgv,motorcar,wheelchair,'survey:date',start_date,opening_hours,source,wikidata,description,note,fixme,shop,mapillary,panoramax)][timeout:25];area(id:3602202162)->.searchArea;(node["amenity"="charging_station"](area.searchArea););out meta;>;out meta qt;

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update_scripts/queries_overpass/content_irve_geojson.txt Normal file
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[out:json][timeout:25];area(id:3600008649)->.searchArea; (node["amenity"="charging_station"](area.searchArea);); out center;

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update_scripts/queries_overpass/query-overpass.sh Executable file
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#!/bin/bash
# Query Overpass API (https://wiki.openstreetmap.org/wiki/Overpass_API)
# Usage:
# ```sh
# echo "[out:json];(way(109849152); node(1985407312);); out;" | ./query-overpass.sh
# ```
curl -d @- -X POST http://overpass-api.de/api/interpreter
#> data_other/output_query_irve_from_overpass.json

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update_scripts/run_all_converters.sh Executable file
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#!/bin/bash
# chemin du dossier à parcourir
dir_to_search="."
# recherche tous les fichiers .sh dans le dossier et ses sous-dossiers
find "$dir_to_search" -type f -name "convert*.sh" -print0 | while IFS= read -r -d '' file; do
echo $file
# exécute chaque fichier .sh trouvé
bash $file
done

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