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android / platform / external / timezone-boundary-builder / refs/tags/aml_uwb_331310030 / . / index.js
blob: 0caf598d5a457d5d41ce6e953c41df5c4504f187 [file] [log] [blame]
var exec = require('child_process').exec
var fs = require('fs')
var path = require('path')
var area = require('@mapbox/geojson-area')
var geojsonhint = require('@mapbox/geojsonhint')
var bbox = require('@turf/bbox').default
var helpers = require('@turf/helpers')
var multiPolygon = helpers.multiPolygon
var polygon = helpers.polygon
var asynclib = require('async')
var https = require('follow-redirects').https
var jsts = require('jsts')
var rimraf = require('rimraf')
var overpass = require('query-overpass')
var yargs = require('yargs')
const FeatureWriterStream = require('./util/featureWriterStream')
const ProgressStats = require('./util/progressStats')
var osmBoundarySources = require('./osmBoundarySources.json')
var zoneCfg = require('./timezones.json')
var expectedZoneOverlaps = require('./expectedZoneOverlaps.json')
const argv = yargs
.option('downloads_dir', {
description: 'Set the download location',
default: './downloads',
type: 'string'
})
.option('dist_dir', {
description: 'Set the dist location',
default: './dist',
type: 'string'
})
.option('excluded_zones', {
description: 'Exclude specified zones',
type: 'array'
})
.option('included_zones', {
description: 'Include specified zones',
type: 'array'
})
.option('skip_analyze_diffs', {
description: 'Skip analysis of diffs between versions',
type: 'boolean'
})
.option('skip_shapefile', {
description: 'Skip shapefile creation',
type: 'boolean'
})
.option('skip_validation', {
description: 'Skip validation',
type: 'boolean'
})
.option('skip_zip', {
description: 'Skip zip creation',
type: 'boolean'
})
.help()
.strict()
.alias('help', 'h')
.argv
// Resolve the arguments with paths so relative paths become absolute.
const downloadsDir = path.resolve(argv.downloads_dir)
const distDir = path.resolve(argv.dist_dir)
// allow building of only a specified zones
let includedZones = []
let excludedZones = []
if (argv.included_zones || argv.excluded_zones) {
if (argv.included_zones) {
const newZoneCfg = {}
includedZones = argv.included_zones
includedZones.forEach((zoneName) => {
newZoneCfg[zoneName] = zoneCfg[zoneName]
})
zoneCfg = newZoneCfg
}
if (argv.excluded_zones) {
const newZoneCfg = {}
excludedZones = argv.excluded_zones
Object.keys(zoneCfg).forEach((zoneName) => {
if (!excludedZones.includes(zoneName)) {
newZoneCfg[zoneName] = zoneCfg[zoneName]
}
})
zoneCfg = newZoneCfg
}
// filter out unneccessary downloads
var newOsmBoundarySources = {}
Object.keys(zoneCfg).forEach((zoneName) => {
zoneCfg[zoneName].forEach((op) => {
if (op.source === 'overpass') {
newOsmBoundarySources[op.id] = osmBoundarySources[op.id]
}
})
})
osmBoundarySources = newOsmBoundarySources
}
var geoJsonReader = new jsts.io.GeoJSONReader()
var geoJsonWriter = new jsts.io.GeoJSONWriter()
var precisionModel = new jsts.geom.PrecisionModel(1000000)
var precisionReducer = new jsts.precision.GeometryPrecisionReducer(precisionModel)
var distZones = {}
var lastReleaseJSONfile
var minRequestGap = 4
var curRequestGap = 4
const bufferDistance = 0.01
var safeMkdir = function (dirname, callback) {
fs.mkdir(dirname, function (err) {
if (err && err.code === 'EEXIST') {
callback()
} else {
callback(err)
}
})
}
var debugGeo = function (
op,
a,
b,
reducePrecision,
bufferAfterPrecisionReduction
) {
var result
if (reducePrecision) {
a = precisionReducer.reduce(a)
b = precisionReducer.reduce(b)
}
try {
switch (op) {
case 'union':
result = a.union(b)
break
case 'intersection':
result = a.intersection(b)
break
case 'intersects':
result = a.intersects(b)
break
case 'diff':
result = a.difference(b)
break
default:
var err = new Error('invalid op: ' + op)
throw err
}
} catch (e) {
if (e.name === 'TopologyException') {
if (reducePrecision) {
if (bufferAfterPrecisionReduction) {
console.log('Encountered TopologyException, retry with buffer increase')
return debugGeo(
op,
a.buffer(bufferDistance),
b.buffer(bufferDistance),
true,
bufferAfterPrecisionReduction
)
} else {
throw new Error('Encountered TopologyException after reducing precision')
}
} else {
console.log('Encountered TopologyException, retry with GeometryPrecisionReducer')
return debugGeo(op, a, b, true, bufferAfterPrecisionReduction)
}
}
console.log('op err')
console.log(e)
console.log(e.stack)
fs.writeFileSync('debug_' + op + '_a.json', JSON.stringify(geoJsonWriter.write(a)))
fs.writeFileSync('debug_' + op + '_b.json', JSON.stringify(geoJsonWriter.write(b)))
throw e
}
return result
}
var fetchIfNeeded = function (file, superCallback, downloadCallback, fetchFn) {
// check for file that got downloaded
fs.stat(file, function (err) {
if (!err) {
// file found, skip download steps
return superCallback()
}
// check for manual file that got fixed and needs validation
var fixedFile = file.replace('.json', '_fixed.json')
fs.stat(fixedFile, function (err) {
if (!err) {
// file found, return fixed file
return downloadCallback(null, require(fixedFile))
}
// no manual fixed file found, download from overpass
fetchFn()
})
})
}
var geoJsonToGeom = function (geoJson) {
try {
return geoJsonReader.read(JSON.stringify(geoJson))
} catch (e) {
console.error('error converting geojson to geometry')
fs.writeFileSync('debug_geojson_read_error.json', JSON.stringify(geoJson))
throw e
}
}
var geomToGeoJson = function (geom) {
return geoJsonWriter.write(geom)
}
var geomToGeoJsonString = function (geom) {
return JSON.stringify(geoJsonWriter.write(geom))
}
const downloadProgress = new ProgressStats(
'Downloading',
Object.keys(osmBoundarySources).length
)
var downloadOsmBoundary = function (boundaryId, boundaryCallback) {
var cfg = osmBoundarySources[boundaryId]
var query = '[out:json][timeout:60];('
if (cfg.way) {
query += 'way'
} else {
query += 'relation'
}
var boundaryFilename = downloadsDir + '/' + boundaryId + '.json'
var debug = 'getting data for ' + boundaryId
var queryKeys = Object.keys(cfg)
for (var i = queryKeys.length - 1; i >= 0; i--) {
var k = queryKeys[i]
if (k === 'way') continue
var v = cfg[k]
query += '["' + k + '"="' + v + '"]'
}
query += ';);out body;>;out meta qt;'
downloadProgress.beginTask(debug, true)
asynclib.auto({
downloadFromOverpass: function (cb) {
console.log('downloading from overpass')
fetchIfNeeded(boundaryFilename, boundaryCallback, cb, function () {
var overpassResponseHandler = function (err, data) {
if (err) {
console.log(err)
console.log('Increasing overpass request gap')
curRequestGap *= 2
makeQuery()
} else {
console.log('Success, decreasing overpass request gap')
curRequestGap = Math.max(minRequestGap, curRequestGap / 2)
cb(null, data)
}
}
var makeQuery = function () {
console.log('waiting ' + curRequestGap + ' seconds')
setTimeout(function () {
overpass(query, overpassResponseHandler, { flatProperties: true })
}, curRequestGap * 1000)
}
makeQuery()
})
},
validateOverpassResult: ['downloadFromOverpass', function (results, cb) {
var data = results.downloadFromOverpass
if (!data.features) {
var err = new Error('Invalid geojson for boundary: ' + boundaryId)
return cb(err)
}
if (data.features.length === 0) {
console.error('No data for the following query:')
console.error(query)
console.error('To read more about this error, please visit https://git.io/vxKQL')
return cb(new Error('No data found for from overpass query'))
}
cb()
}],
saveSingleMultiPolygon: ['validateOverpassResult', function (results, cb) {
var data = results.downloadFromOverpass
var combined
// union all multi-polygons / polygons into one
for (var i = data.features.length - 1; i >= 0; i--) {
var curOsmGeom = data.features[i].geometry
const curOsmProps = data.features[i].properties
if (
(curOsmGeom.type === 'Polygon' || curOsmGeom.type === 'MultiPolygon') &&
curOsmProps.type === 'boundary' // need to make sure enclaves aren't unioned
) {
console.log('combining border')
let errors = geojsonhint.hint(curOsmGeom)
if (errors && errors.length > 0) {
const stringifiedGeojson = JSON.stringify(curOsmGeom, null, 2)
errors = geojsonhint.hint(stringifiedGeojson)
console.error('Invalid geojson received in Overpass Result')
console.error('Overpass query: ' + query)
const problemFilename = boundaryId + '_convert_to_geom_error.json'
fs.writeFileSync(problemFilename, stringifiedGeojson)
console.error('saved problem file to ' + problemFilename)
console.error('To read more about this error, please visit https://git.io/vxKQq')
return cb(errors)
}
try {
var curGeom = geoJsonToGeom(curOsmGeom)
} catch (e) {
console.error('error converting overpass result to geojson')
console.error(e)
fs.writeFileSync(boundaryId + '_convert_to_geom_error-all-features.json', JSON.stringify(data))
return cb(e)
}
if (!combined) {
combined = curGeom
} else {
combined = debugGeo('union', curGeom, combined)
}
}
}
try {
fs.writeFile(boundaryFilename, geomToGeoJsonString(combined), cb)
} catch (e) {
console.error('error writing combined border to geojson')
fs.writeFileSync(boundaryId + '_combined_border_convert_to_geom_error.json', JSON.stringify(data))
return cb(e)
}
}]
}, boundaryCallback)
}
var getTzDistFilename = function (tzid) {
return distDir + '/' + tzid.replace(/\//g, '__') + '.json'
}
/**
* Get the geometry of the requested source data
*
* @return {Object} geom The geometry of the source
* @param {Object} source An object representing the data source
* must have `source` key and then either:
* - `id` if from a file
* - `id` if from a file
*/
var getDataSource = function (source) {
var geoJson
if (source.source === 'overpass') {
geoJson = require(downloadsDir + '/' + source.id + '.json')
} else if (source.source === 'manual-polygon') {
geoJson = polygon(source.data).geometry
} else if (source.source === 'manual-multipolygon') {
geoJson = multiPolygon(source.data).geometry
} else if (source.source === 'dist') {
geoJson = require(getTzDistFilename(source.id))
} else {
var err = new Error('unknown source: ' + source.source)
throw err
}
return geoJsonToGeom(geoJson)
}
/**
* Post process created timezone boundary.
* - remove small holes and exclaves
* - reduce geometry precision
*
* @param {Geometry} geom The jsts geometry of the timezone
* @param {boolean} returnAsObject if true, return as object, otherwise return stringified
* @return {Object|String} geojson as object or stringified
*/
var postProcessZone = function (geom, returnAsObject) {
// reduce precision of geometry
const geojson = geomToGeoJson(precisionReducer.reduce(geom))
// iterate through all polygons
const filteredPolygons = []
let allPolygons = geojson.coordinates
if (geojson.type === 'Polygon') {
allPolygons = [geojson.coordinates]
}
allPolygons.forEach((curPolygon, idx) => {
// remove any polygon with very small area
const polygonFeature = polygon(curPolygon)
const polygonArea = area.geometry(polygonFeature.geometry)
if (polygonArea < 1) return
// find all holes
const filteredLinearRings = []
curPolygon.forEach((curLinearRing, lrIdx) => {
if (lrIdx === 0) {
// always keep first linearRing
filteredLinearRings.push(curLinearRing)
} else {
const polygonFromLinearRing = polygon([curLinearRing])
const linearRingArea = area.geometry(polygonFromLinearRing.geometry)
// only include holes with relevant area
if (linearRingArea > 1) {
filteredLinearRings.push(curLinearRing)
}
}
})
filteredPolygons.push(filteredLinearRings)
})
// recompile to geojson string
const newGeojson = {
type: geojson.type
}
if (geojson.type === 'Polygon') {
newGeojson.coordinates = filteredPolygons[0]
} else {
newGeojson.coordinates = filteredPolygons
}
return returnAsObject ? newGeojson : JSON.stringify(newGeojson)
}
const buildingProgress = new ProgressStats(
'Building',
Object.keys(zoneCfg).length
)
var makeTimezoneBoundary = function (tzid, callback) {
buildingProgress.beginTask(`makeTimezoneBoundary for ${tzid}`, true)
var ops = zoneCfg[tzid]
var geom
asynclib.eachSeries(ops, function (task, cb) {
var taskData = getDataSource(task)
console.log('-', task.op, task.id)
if (task.op === 'init') {
geom = taskData
} else if (task.op === 'intersect') {
geom = debugGeo('intersection', geom, taskData)
} else if (task.op === 'difference') {
geom = debugGeo('diff', geom, taskData)
} else if (task.op === 'difference-reverse-order') {
geom = debugGeo('diff', taskData, geom)
} else if (task.op === 'union') {
geom = debugGeo('union', geom, taskData)
} else {
var err = new Error('unknown op: ' + task.op)
return cb(err)
}
cb()
},
function (err) {
if (err) { return callback(err) }
fs.writeFile(getTzDistFilename(tzid),
postProcessZone(geom),
callback)
})
}
var loadDistZonesIntoMemory = function () {
console.log('load zones into memory')
var zones = Object.keys(zoneCfg)
var tzid
for (var i = 0; i < zones.length; i++) {
tzid = zones[i]
distZones[tzid] = getDataSource({ source: 'dist', id: tzid })
}
}
var getDistZoneGeom = function (tzid) {
return distZones[tzid]
}
var roundDownToTenth = function (n) {
return Math.floor(n * 10) / 10
}
var roundUpToTenth = function (n) {
return Math.ceil(n * 10) / 10
}
var formatBounds = function (bounds) {
let boundsStr = '['
boundsStr += roundDownToTenth(bounds[0]) + ', '
boundsStr += roundDownToTenth(bounds[1]) + ', '
boundsStr += roundUpToTenth(bounds[2]) + ', '
boundsStr += roundUpToTenth(bounds[3]) + ']'
return boundsStr
}
var validateTimezoneBoundaries = function () {
const numZones = Object.keys(zoneCfg).length
const validationProgress = new ProgressStats(
'Validation',
numZones * (numZones + 1) / 2
)
console.log('do validation... this may take a few minutes')
var allZonesOk = true
var zones = Object.keys(zoneCfg)
var lastPct = 0
var compareTzid, tzid, zoneGeom
for (var i = 0; i < zones.length; i++) {
tzid = zones[i]
zoneGeom = getDistZoneGeom(tzid)
for (var j = i + 1; j < zones.length; j++) {
const curPct = Math.floor(validationProgress.getPercentage())
if (curPct % 10 === 0 && curPct !== lastPct) {
validationProgress.printStats('Validating zones', true)
lastPct = curPct
}
compareTzid = zones[j]
var compareZoneGeom = getDistZoneGeom(compareTzid)
var intersects = false
try {
intersects = debugGeo('intersects', zoneGeom, compareZoneGeom)
} catch (e) {
console.warn('warning, encountered intersection error with zone ' + tzid + ' and ' + compareTzid)
}
if (intersects) {
var intersectedGeom = debugGeo('intersection', zoneGeom, compareZoneGeom)
var intersectedArea = intersectedGeom.getArea()
if (intersectedArea > 0.0001) {
// check if the intersected area(s) are one of the expected areas of overlap
const allowedOverlapBounds = expectedZoneOverlaps[`${tzid}-${compareTzid}`] || expectedZoneOverlaps[`${compareTzid}-${tzid}`]
const overlapsGeoJson = geoJsonWriter.write(intersectedGeom)
// these zones are allowed to overlap in certain places, make sure the
// found overlap(s) all fit within the expected areas of overlap
if (allowedOverlapBounds) {
// if the overlaps are a multipolygon, make sure each individual
// polygon of overlap fits within at least one of the expected
// overlaps
let overlapsPolygons
switch (overlapsGeoJson.type) {
case 'MultiPolygon':
overlapsPolygons = overlapsGeoJson.coordinates.map(
polygonCoords => ({
coordinates: polygonCoords,
type: 'Polygon'
})
)
break
case 'Polygon':
overlapsPolygons = [overlapsGeoJson]
break
case 'GeometryCollection':
overlapsPolygons = []
overlapsGeoJson.geometries.forEach(geom => {
if (geom.type === 'Polygon') {
overlapsPolygons.push(geom)
} else if (geom.type === 'MultiPolygon') {
geom.coordinates.forEach(polygonCoords => {
overlapsPolygons.push({
coordinates: polygonCoords,
type: 'Polygon'
})
})
}
})
break
default:
console.error('unexpected geojson overlap type')
console.log(overlapsGeoJson)
break
}
let allOverlapsOk = true
overlapsPolygons.forEach((polygon, idx) => {
const bounds = bbox(polygon)
const polygonArea = area.geometry(polygon)
if (
polygonArea > 10 && // ignore small polygons
!allowedOverlapBounds.some(allowedBounds =>
allowedBounds.bounds[0] <= bounds[0] && // minX
allowedBounds.bounds[1] <= bounds[1] && // minY
allowedBounds.bounds[2] >= bounds[2] && // maxX
allowedBounds.bounds[3] >= bounds[3] // maxY
)
) {
console.error(`Unexpected intersection (${polygonArea} area) with bounds: ${formatBounds(bounds)}`)
allOverlapsOk = false
}
})
if (allOverlapsOk) continue
}
// at least one unexpected overlap found, output an error and write debug file
console.error('Validation error: ' + tzid + ' intersects ' + compareTzid + ' area: ' + intersectedArea)
const debugFilename = tzid.replace(/\//g, '-') + '-' + compareTzid.replace(/\//g, '-') + '-overlap.json'
fs.writeFileSync(
debugFilename,
JSON.stringify(overlapsGeoJson)
)
console.error('wrote overlap area as file ' + debugFilename)
console.error('To read more about this error, please visit https://git.io/vx6nx')
allZonesOk = false
}
}
validationProgress.logNext()
}
}
return allZonesOk ? null : 'Zone validation unsuccessful'
}
let oceanZoneBoundaries
let oceanZones = [
{ tzid: 'Etc/GMT-12', left: 172.5, right: 180 },
{ tzid: 'Etc/GMT-11', left: 157.5, right: 172.5 },
{ tzid: 'Etc/GMT-10', left: 142.5, right: 157.5 },
{ tzid: 'Etc/GMT-9', left: 127.5, right: 142.5 },
{ tzid: 'Etc/GMT-8', left: 112.5, right: 127.5 },
{ tzid: 'Etc/GMT-7', left: 97.5, right: 112.5 },
{ tzid: 'Etc/GMT-6', left: 82.5, right: 97.5 },
{ tzid: 'Etc/GMT-5', left: 67.5, right: 82.5 },
{ tzid: 'Etc/GMT-4', left: 52.5, right: 67.5 },
{ tzid: 'Etc/GMT-3', left: 37.5, right: 52.5 },
{ tzid: 'Etc/GMT-2', left: 22.5, right: 37.5 },
{ tzid: 'Etc/GMT-1', left: 7.5, right: 22.5 },
{ tzid: 'Etc/GMT', left: -7.5, right: 7.5 },
{ tzid: 'Etc/GMT+1', left: -22.5, right: -7.5 },
{ tzid: 'Etc/GMT+2', left: -37.5, right: -22.5 },
{ tzid: 'Etc/GMT+3', left: -52.5, right: -37.5 },
{ tzid: 'Etc/GMT+4', left: -67.5, right: -52.5 },
{ tzid: 'Etc/GMT+5', left: -82.5, right: -67.5 },
{ tzid: 'Etc/GMT+6', left: -97.5, right: -82.5 },
{ tzid: 'Etc/GMT+7', left: -112.5, right: -97.5 },
{ tzid: 'Etc/GMT+8', left: -127.5, right: -112.5 },
{ tzid: 'Etc/GMT+9', left: -142.5, right: -127.5 },
{ tzid: 'Etc/GMT+10', left: -157.5, right: -142.5 },
{ tzid: 'Etc/GMT+11', left: -172.5, right: -157.5 },
{ tzid: 'Etc/GMT+12', left: -180, right: -172.5 }
]
if (includedZones.length > 0) {
oceanZones = oceanZones.filter(oceanZone => includedZones.indexOf(oceanZone) > -1)
}
if (excludedZones.length > 0) {
oceanZones = oceanZones.filter(oceanZone => excludedZones.indexOf(oceanZone) === -1)
}
var addOceans = function (callback) {
console.log('adding ocean boundaries')
const zones = Object.keys(zoneCfg)
const oceanProgress = new ProgressStats(
'Oceans',
oceanZones.length
)
oceanZoneBoundaries = oceanZones.map(zone => {
oceanProgress.beginTask(zone.tzid, true)
const geoJson = polygon([[
[zone.left, 90],
[zone.left, -90],
[zone.right, -90],
[zone.right, 90],
[zone.left, 90]
]]).geometry
let geom = geoJsonToGeom(geoJson)
// diff against every zone
zones.forEach(distZone => {
geom = debugGeo('diff', geom, getDistZoneGeom(distZone))
})
return {
geom: postProcessZone(geom, true),
tzid: zone.tzid
}
})
callback()
}
var combineAndWriteZones = function (callback) {
const regularWriter = new FeatureWriterStream(distDir + '/combined.json')
const oceanWriter = new FeatureWriterStream(distDir + '/combined-with-oceans.json')
var zones = Object.keys(zoneCfg)
zones.forEach(zoneName => {
const feature = {
type: 'Feature',
properties: { tzid: zoneName },
geometry: geomToGeoJson(getDistZoneGeom(zoneName))
}
const stringified = JSON.stringify(feature)
regularWriter.add(stringified)
oceanWriter.add(stringified)
})
oceanZoneBoundaries.forEach(boundary => {
var feature = {
type: 'Feature',
properties: { tzid: boundary.tzid },
geometry: boundary.geom
}
oceanWriter.add(JSON.stringify(feature))
})
asynclib.parallel([
cb => regularWriter.end(cb),
cb => oceanWriter.end(cb)
], callback)
}
var downloadLastRelease = function (cb) {
// download latest release info
https.get(
{
headers: { 'user-agent': 'timezone-boundary-builder' },
host: 'api.github.com',
path: '/repos/evansiroky/timezone-boundary-builder/releases/latest'
},
function (res) {
var data = ''
res.on('data', function (chunk) {
data += chunk
})
res.on('end', function () {
data = JSON.parse(data)
// determine last release version name and download link
const lastReleaseName = data.name
lastReleaseJSONfile = `./dist/${lastReleaseName}.json`
let lastReleaseDownloadUrl
for (var i = 0; i < data.assets.length; i++) {
if (data.assets[i].browser_download_url.indexOf('timezones-with-oceans.geojson') > -1) {
lastReleaseDownloadUrl = data.assets[i].browser_download_url
}
}
if (!lastReleaseDownloadUrl) {
return cb(new Error('geojson not found'))
}
// check for file that got downloaded
fs.stat(lastReleaseJSONfile, function (err) {
if (!err) {
// file found, skip download steps
return cb()
}
// file not found, download
console.log(`Downloading latest release to ${lastReleaseJSONfile}.zip`)
https.get({
headers: { 'user-agent': 'timezone-boundary-builder' },
host: 'github.com',
path: lastReleaseDownloadUrl.replace('https://github.com', '')
}, function (response) {
var file = fs.createWriteStream(`${lastReleaseJSONfile}.zip`)
response.pipe(file)
file.on('finish', function () {
file.close((err) => {
if (err) return cb(err)
// unzip file
console.log('unzipping latest release')
exec(
`unzip -o ${lastReleaseJSONfile} -d dist`,
err => {
if (err) { return cb(err) }
console.log('unzipped file')
console.log('moving unzipped file')
// might need to change this after changes to how files are
// zipped after 2020a
fs.copyFile(
path.join(
'dist',
'dist',
'combined-with-oceans.json'
),
lastReleaseJSONfile,
cb
)
}
)
})
})
}).on('error', cb)
})
})
}
)
}
var analyzeChangesFromLastRelease = function (cb) {
// load last release data into memory
console.log('loading previous release into memory')
const lastReleaseData = require(lastReleaseJSONfile)
// load each feature's geojson into JSTS format and then organized by tzid
const lastReleaseZones = {}
lastReleaseData.features.forEach(
feature => {
lastReleaseZones[feature.properties.tzid] = feature
}
)
// generate set of keys from last release and current
const zoneNames = new Set()
Object.keys(distZones).forEach(zoneName => zoneNames.add(zoneName))
Object.keys(lastReleaseZones).forEach(zoneName => zoneNames.add(zoneName))
// create diff for each zone
const analysisProgress = new ProgressStats(
'Analyzing diffs',
zoneNames.size
)
const additionsWriter = new FeatureWriterStream(distDir + '/additions.json')
const removalsWriter = new FeatureWriterStream(distDir + '/removals.json')
zoneNames.forEach(zoneName => {
analysisProgress.beginTask(zoneName, true)
if (distZones[zoneName] && lastReleaseZones[zoneName]) {
// some zones take forever to diff unless they are buffered, so buffer by
// just a small amount
const lastReleaseGeom = geoJsonToGeom(
lastReleaseZones[zoneName].geometry
).buffer(bufferDistance)
const curDataGeom = getDistZoneGeom(zoneName).buffer(bufferDistance)
// don't diff equal geometries
if (curDataGeom.equals(lastReleaseGeom)) return
// diff current - last = additions
const addition = debugGeo(
'diff',
curDataGeom,
lastReleaseGeom,
false,
true
)
if (addition.getArea() > 0.0001) {
additionsWriter.add(JSON.stringify({
type: 'Feature',
properties: { tzid: zoneName },
geometry: geomToGeoJson(addition)
}))
}
// diff last - current = removals
const removal = debugGeo(
'diff',
lastReleaseGeom,
curDataGeom,
false,
true
)
if (removal.getArea() > 0.0001) {
removalsWriter.add(JSON.stringify({
type: 'Feature',
properties: { tzid: zoneName },
geometry: geomToGeoJson(removal)
}))
}
} else if (distZones[zoneName]) {
additionsWriter.add(JSON.stringify({
type: 'Feature',
properties: { tzid: zoneName },
geometry: geomToGeoJson(getDistZoneGeom(zoneName))
}))
} else {
removalsWriter.add(JSON.stringify(lastReleaseZones[zoneName]))
}
})
// write files
asynclib.parallel([
wcb => additionsWriter.end(wcb),
wcb => removalsWriter.end(wcb)
], cb)
}
const autoScript = {
makeDownloadsDir: function (cb) {
overallProgress.beginTask('Creating downloads dir')
safeMkdir(downloadsDir, cb)
},
makeDistDir: function (cb) {
overallProgress.beginTask('Creating dist dir')
safeMkdir(distDir, cb)
},
getOsmBoundaries: ['makeDownloadsDir', function (results, cb) {
overallProgress.beginTask('Downloading osm boundaries')
asynclib.eachSeries(Object.keys(osmBoundarySources), downloadOsmBoundary, cb)
}],
cleanDownloadFolder: ['makeDistDir', 'getOsmBoundaries', function (results, cb) {
overallProgress.beginTask('cleanDownloadFolder')
const downloadedFilenames = Object.keys(osmBoundarySources).map(name => `${name}.json`)
fs.readdir(downloadsDir, (err, files) => {
if (err) return cb(err)
asynclib.each(
files,
(file, fileCb) => {
if (downloadedFilenames.indexOf(file) === -1) {
return fs.unlink(path.join(downloadsDir, file), fileCb)
}
fileCb()
},
cb
)
})
}],
zipInputData: ['cleanDownloadFolder', function (results, cb) {
overallProgress.beginTask('Zipping up input data')
exec('zip -j ' + distDir + '/input-data.zip ' + downloadsDir +
'/* timezones.json osmBoundarySources.json expectedZoneOverlaps.json', cb)
}],
downloadLastRelease: ['makeDistDir', function (results, cb) {
if (argv.skip_analyze_diffs) {
overallProgress.beginTask('WARNING: Skipping download of last release for analysis!')
cb()
} else {
overallProgress.beginTask('Downloading last release for analysis')
downloadLastRelease(cb)
}
}],
createZones: ['makeDistDir', 'getOsmBoundaries', function (results, cb) {
overallProgress.beginTask('Creating timezone boundaries')
asynclib.each(Object.keys(zoneCfg), makeTimezoneBoundary, cb)
}],
validateZones: ['createZones', function (results, cb) {
overallProgress.beginTask('Validating timezone boundaries')
loadDistZonesIntoMemory()
if (argv.skip_validation) {
console.warn('WARNING: Skipping validation!')
cb()
} else {
cb(validateTimezoneBoundaries())
}
}],
addOceans: ['validateZones', function (results, cb) {
overallProgress.beginTask('Adding oceans')
addOceans(cb)
}],
mergeZones: ['addOceans', function (results, cb) {
overallProgress.beginTask('Merging zones')
combineAndWriteZones(cb)
}],
zipGeoJson: ['mergeZones', function (results, cb) {
if (argv.skip_zip) {
overallProgress.beginTask('Skipping zip')
return cb()
}
overallProgress.beginTask('Zipping geojson')
const zipFile = distDir + '/timezones.geojson.zip'
const jsonFile = distDir + '/combined.json'
exec('zip -j ' + zipFile + ' ' + jsonFile, cb)
}],
zipGeoJsonWithOceans: ['mergeZones', function (results, cb) {
if (argv.skip_zip) {
overallProgress.beginTask('Skipping with oceans zip')
return cb()
}
overallProgress.beginTask('Zipping geojson with oceans')
const zipFile = distDir + '/timezones-with-oceans.geojson.zip'
const jsonFile = distDir + '/combined-with-oceans.json'
exec('zip -j ' + zipFile + ' ' + jsonFile, cb)
}],
makeShapefile: ['mergeZones', function (results, cb) {
if (argv.skip_shapefile) {
overallProgress.beginTask('Skipping shapefile creation')
return cb()
}
overallProgress.beginTask('Converting from geojson to shapefile')
const shapeFileGlob = distDir + '/combined-shapefile.*'
rimraf.sync(shapeFileGlob)
const shapeFile = distDir + '/combined-shapefile.shp'
const jsonFile = distDir + '/combined.json'
exec(
'ogr2ogr -f "ESRI Shapefile" ' + shapeFile + ' ' + jsonFile,
function (err, stdout, stderr) {
if (err) { return cb(err) }
const shapeFileZip = distDir + '/timezones.shapefile.zip'
exec('zip -j ' + shapeFileZip + ' ' + shapeFileGlob, cb)
}
)
}],
makeShapefileWithOceans: ['mergeZones', function (results, cb) {
if (argv.skip_shapefile) {
overallProgress.beginTask('Skipping with oceans shapefile creation')
return cb()
}
overallProgress.beginTask('Converting from geojson with oceans to shapefile')
const shapeFileGlob = distDir + '/combined-shapefile-with-oceans.*'
rimraf.sync(shapeFileGlob)
const shapeFile = distDir + '/combined-shapefile-with-oceans.shp'
const jsonFile = distDir + '/combined-with-oceans.json'
exec(
'ogr2ogr -f "ESRI Shapefile" ' + shapeFile + ' ' + jsonFile,
function (err, stdout, stderr) {
if (err) { return cb(err) }
const shapeFileZip = distDir + '/timezones-with-oceans.shapefile.zip'
exec('zip -j ' + shapeFileZip + ' ' + shapeFileGlob, cb)
}
)
}],
makeListOfTimeZoneNames: function (cb) {
overallProgress.beginTask('Writing timezone names to file')
let zoneNames = Object.keys(zoneCfg)
oceanZones.forEach(oceanZone => {
zoneNames.push(oceanZone.tzid)
})
if (includedZones.length > 0) {
zoneNames = zoneNames.filter(zoneName => includedZones.indexOf(zoneName) > -1)
}
if (excludedZones.length > 0) {
zoneNames = zoneNames.filter(zoneName => excludedZones.indexOf(zoneName) === -1)
}
fs.writeFile(
distDir + '/timezone-names.json',
JSON.stringify(zoneNames),
cb
)
},
analyzeChangesFromLastRelease: ['downloadLastRelease', 'mergeZones', function (results, cb) {
if (argv.skip_analyze_diffs) {
overallProgress.beginTask('WARNING: Skipping analysis of changes from last release!')
cb()
} else {
overallProgress.beginTask('Analyzing changes from last release')
analyzeChangesFromLastRelease(cb)
}
}]
}
const overallProgress = new ProgressStats('Overall', Object.keys(autoScript).length)
asynclib.auto(autoScript, function (err, results) {
console.log('done')
if (err) {
console.log('error!', err)
}
})