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291 lines
10 KiB
291 lines
10 KiB
const _ = require('lodash'); |
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const logger = require('pelias-logger').get('api'); |
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const Document = require('pelias-model').Document; |
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const geolib = require('geolib'); |
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const Debug = require('../helper/debug'); |
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const debugLog = new Debug('controller:placeholder'); |
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// composition of toNumber and isFinite, useful for single call to convert a value |
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// to a number, then checking to see if it's finite |
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function isFiniteNumber(value) { |
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return !_.isEmpty(_.trim(value)) && _.isFinite(_.toNumber(value)); |
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} |
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// returns true if value is parseable as finite non-negative number |
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function isNonNegativeFiniteNumber(value) { |
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return isFiniteNumber(value) && _.gte(value, 0); |
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} |
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function hasLatLon(result) { |
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return _.isFinite(_.get(result.geom, 'lat')) && _.isFinite(_.get(result.geom, 'lon')); |
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} |
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function getLatLon(result) { |
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return { |
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latitude: result.geom.lat, |
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longitude: result.geom.lon |
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}; |
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} |
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// if geom.lat/lon are parseable as finite numbers, convert to a finite number |
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// otherwise remove the field |
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function numberifyGeomLatLon(result) { |
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['lat', 'lon'].forEach((f) => { |
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if (isFiniteNumber(_.get(result.geom, f))) { |
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result.geom[f] = _.toFinite(result.geom[f]); |
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} else { |
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// result.geom may not exist, so use unset instead of delete |
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_.unset(result.geom, f); |
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} |
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}); |
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return result; |
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} |
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// returns true if all 4 ,-delimited (max) substrings are parseable as finite numbers |
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// '12.12,21.21,13.13,31.31' returns true |
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// '12.12,21.21,13.13,31.31,14.14' returns false |
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// '12.12,21.21,13.13,blah' returns false |
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// '12.12,21.21,13.13,31.31,blah' returns false |
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// '12.12,NaN,13.13,31.31' returns false |
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// '12.12,Infinity,13.13,31.31' returns false |
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function is4CommaDelimitedNumbers(bbox) { |
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return _.defaultTo(bbox, ''). |
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split(','). |
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filter(isFiniteNumber).length === 4; |
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} |
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function hasName(result) { |
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return !_.isEmpty(_.trim(result.name)); |
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} |
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// filter that passes only results that match on requested layers |
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function getLayersFilter(clean) { |
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// passes everything if: |
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// - req.clean.layers is empty |
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// - req.clean.parsed_text.street is available |
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if (_.isEmpty(_.get(clean, 'layers', [])) || _.has(clean, ['parsed_text', 'street'])) { |
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return () => true; |
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} |
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// otherwise return a function that checks for set inclusion of a result placetype |
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return (result) => _.includes(clean.layers, result.placetype); |
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} |
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// return true if the hierarchy does not have a country.abbr |
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// OR hierarchy country.abbr matches boundary.country |
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function matchesBoundaryCountry(boundaryCountry, hierarchy) { |
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return !boundaryCountry || _.get(hierarchy, 'country.abbr') === boundaryCountry; |
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} |
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// return true if the result does not have a lineage |
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// OR at least one lineage matches the requested boundary.country |
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function atLeastOneLineageMatchesBoundaryCountry(boundaryCountry, result) { |
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return !result.lineage || result.lineage.some(_.partial(matchesBoundaryCountry, boundaryCountry)); |
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} |
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// return a function that detects if a result has at least one lineage in boundary.country |
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function getBoundaryCountryFilter(clean, do_geometric_filters_apply) { |
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if ( do_geometric_filters_apply && _.has(clean, 'boundary.country') ) { |
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return _.partial(atLeastOneLineageMatchesBoundaryCountry, clean['boundary.country']); |
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} |
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// there's no boundary.country filter, so return a function that always returns true |
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return () => true; |
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} |
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// return a function that detects if a result is inside a bbox if a bbox is available |
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function getBoundaryRectangleFilter(clean, do_geometric_filters_apply) { |
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// check to see if boundary.rect.min_lat/min_lon/max_lat/max_lon are all available |
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if (do_geometric_filters_apply && ['min_lat', 'min_lon', 'max_lat', 'max_lon'].every((f) => { |
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return _.has(clean, `boundary.rect.${f}`); |
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})) { |
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const polygon = [ |
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{ latitude: clean['boundary.rect.min_lat'], longitude: clean['boundary.rect.min_lon'] }, |
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{ latitude: clean['boundary.rect.max_lat'], longitude: clean['boundary.rect.min_lon'] }, |
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{ latitude: clean['boundary.rect.max_lat'], longitude: clean['boundary.rect.max_lon'] }, |
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{ latitude: clean['boundary.rect.min_lat'], longitude: clean['boundary.rect.max_lon'] } |
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]; |
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// isPointInside takes polygon last, so create a function that has it pre-populated |
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const isPointInsidePolygon = _.partialRight(geolib.isPointInside, polygon); |
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return _.partial(isInsideGeometry, isPointInsidePolygon); |
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} |
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// there's no bbox filter, so return a function that always returns true |
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return () => true; |
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} |
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// return a function that detects if a result is inside a circle if a circle is available |
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function getBoundaryCircleFilter(clean, do_geometric_filters_apply) { |
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// check to see if boundary.circle.lat/lon/radius are all available |
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if (do_geometric_filters_apply && ['lat', 'lon', 'radius'].every((f) => { |
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return _.has(clean, `boundary.circle.${f}`); |
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})) { |
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const center = { |
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latitude: clean['boundary.circle.lat'], |
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longitude: clean['boundary.circle.lon'] |
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}; |
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const radiusInMeters = clean['boundary.circle.radius'] * 1000; |
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// isPointInCircle takes circle/radius last, so create a function that has them pre-populated |
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const isPointInCircle = _.partialRight(geolib.isPointInCircle, center, radiusInMeters); |
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return _.partial(isInsideGeometry, isPointInCircle); |
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} |
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// there's no circle filter, so return a function that always returns true |
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return () => true; |
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} |
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// helper that calls an "is inside some geometry" function |
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function isInsideGeometry(f, result) { |
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return hasLatLon(result) ? f(getLatLon(result)) : false; |
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} |
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// returns true if hierarchyElement has both name and id |
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function placetypeHasNameAndId(hierarchyElement) { |
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return !_.isEmpty(_.trim(hierarchyElement.name)) && |
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!_.isEmpty(_.trim(hierarchyElement.id)); |
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} |
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// synthesize an ES doc from a placeholder result |
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function synthesizeDocs(boundaryCountry, result) { |
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const doc = new Document('whosonfirst', result.placetype, result.id.toString()); |
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doc.setName('default', result.name); |
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// only assign centroid if both lat and lon are finite numbers |
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if (hasLatLon(result)) { |
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doc.setCentroid( { lat: result.geom.lat, lon: result.geom.lon } ); |
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} else { |
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logger.error(`could not parse centroid for id ${result.id}`); |
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} |
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// _.conformsTo verifies that an object property has a certain format |
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if (_.conformsTo(result.geom, { 'bbox': is4CommaDelimitedNumbers } )) { |
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const parsedBoundingBox = result.geom.bbox.split(',').map(_.toFinite); |
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doc.setBoundingBox({ |
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upperLeft: { |
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lat: parsedBoundingBox[3], |
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lon: parsedBoundingBox[0] |
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}, |
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lowerRight: { |
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lat: parsedBoundingBox[1], |
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lon: parsedBoundingBox[2] |
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} |
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}); |
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} else { |
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logger.error(`could not parse bbox for id ${result.id}: ${_.get(result, 'geom.bbox')}`); |
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} |
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// set population and popularity if parseable as finite number |
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if (isNonNegativeFiniteNumber(result.population)) { |
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doc.setPopulation(_.toFinite(result.population)); |
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} |
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if (isNonNegativeFiniteNumber(result.popularity)) { |
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doc.setPopularity(_.toFinite(result.popularity)); |
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} |
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_.defaultTo(result.lineage, []) |
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// remove all lineages that don't match an explicit boundary.country |
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.filter(_.partial(matchesBoundaryCountry, boundaryCountry)) |
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// add all the lineages to the doc |
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.map((hierarchy) => { |
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Object.keys(hierarchy) |
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.filter(doc.isSupportedParent) |
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.filter((placetype) => { |
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return placetypeHasNameAndId(hierarchy[placetype]); |
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}) |
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.forEach((placetype) => { |
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doc.addParent( |
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placetype, |
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hierarchy[placetype].name, |
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hierarchy[placetype].id.toString(), |
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hierarchy[placetype].abbr); |
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}); |
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}); |
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return buildESDoc(doc); |
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} |
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function buildESDoc(doc) { |
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const esDoc = doc.toESDocument(); |
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return _.extend(esDoc.data, { _id: esDoc._id, _type: esDoc._type }); |
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} |
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function setup(placeholderService, do_geometric_filters_apply, should_execute) { |
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function controller( req, res, next ){ |
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// bail early if req/res don't pass conditions for execution |
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if (!should_execute(req, res)) { |
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return next(); |
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} |
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const initialTime = debugLog.beginTimer(req); |
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const start = Date.now(); |
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placeholderService(req, (err, results) => { |
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logger.info('placeholder', { |
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response_time: Date.now() - start, |
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params: req.clean, |
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result_count: _.defaultTo(res.data, []).length, |
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text_length: _.get(req, 'clean.text.length', 0), |
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controller: 'placeholder', |
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}); |
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if (err) { |
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// push err.message or err onto req.errors |
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req.errors.push( _.get(err, 'message', err)); |
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} else { |
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const boundaryCountry = do_geometric_filters_apply ? _.get(req, ['clean', 'boundary.country']) : undefined; |
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// convert results to ES docs |
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// boundary.country filter must happen after synthesis since multiple |
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// lineages may produce different country docs |
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res.meta = { |
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query_type: 'fallback' |
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}; |
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res.data = results |
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// filter out results that don't have a name |
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.filter(hasName) |
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// filter out results that don't match on requested layer(s) |
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.filter(getLayersFilter(req.clean)) |
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// filter out results that don't match on any lineage country |
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.filter(getBoundaryCountryFilter(req.clean, do_geometric_filters_apply)) |
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// clean up geom.lat/lon for boundary rect/circle checks |
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.map(numberifyGeomLatLon) |
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// filter out results that aren't in the boundary.rect |
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.filter(getBoundaryRectangleFilter(req.clean, do_geometric_filters_apply)) |
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// filter out results that aren't in the boundary.circle |
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.filter(getBoundaryCircleFilter(req.clean, do_geometric_filters_apply)) |
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// convert results to ES docs |
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.map(_.partial(synthesizeDocs, boundaryCountry)); |
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const messageParts = [ |
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'[controller:placeholder]', |
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`[result_count:${_.defaultTo(res.data, []).length}]` |
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]; |
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logger.debug(messageParts.join(' ')); |
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debugLog.push(req, messageParts[1].slice(1,-1)); |
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debugLog.push(req, res.data); |
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} |
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debugLog.stopTimer(req, initialTime); |
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return next(); |
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}); |
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} |
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return controller; |
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} |
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module.exports = setup;
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