Geolocation 如何使用纬度和经度坐标从一个位置获取时区?
给定一个位置的纬度和经度,如何知道该位置的时区是什么Geolocation 如何使用纬度和经度坐标从一个位置获取时区?,geolocation,timezone,latitude-longitude,Geolocation,Timezone,Latitude Longitude,给定一个位置的纬度和经度,如何知道该位置的时区是什么 在大多数情况下,我们都在寻找IANA/Olson时区id,尽管有些服务可能只返回UTC偏移量或其他一些时区标识符。有关详细信息,请阅读。时区位置Web服务 -商业(但是) -商业,侧重于航海时区 原始时区边界数据 -从OpenStreetMaps地图数据构建时区形状文件。包括海岸线附近的领海 以下项目以前是时区边界数据的来源,但现在不再积极维护 -来自Eric Muller的原始形状文件数据 -合并了WOEDB数据的Geo
在大多数情况下,我们都在寻找IANA/Olson时区id,尽管有些服务可能只返回UTC偏移量或其他一些时区标识符。有关详细信息,请阅读。时区位置Web服务
- -商业(但是)
- -商业,侧重于航海时区
- -从OpenStreetMaps地图数据构建时区形状文件。包括海岸线附近的领海
- -来自Eric Muller的原始形状文件数据
- -合并了WOEDB数据的GeoJSON版本
- -JavaScript库(仅限Node.js)
- -JavaScript库
- -JavaScript库
- -.NET图书馆
- -PHP库
- -Python库
- -C库
- -Java库
- -Java和Android库
- -R库
- -去图书馆
- -去图书馆
- -docker容器包装节点geo tz
- -去图书馆(同时阅读)
- -Java库
- -JavaScript/节点库
- -Python库
- -Ruby库
- -Java和Swift库
- -描述PHP和MongoDB的博客文章
- -R库
- -调用GeoNames的Ruby gem
- 有自己的库用于从Java或.Net调用
- 几乎所有的东西都有客户端库
- -基于,通过Docker image提供
- 找到最近的城市
- 找到最近的城市
TimeZoneInfo
类一起使用,请使用该库
不要使用zone.tab
包含名为的文件。此文件主要用于显示时区列表,供用户选择。它包括每个时区的参考点的纬度和经度坐标。这样可以创建一张地图,突出显示这些点。例如,请参见上显示的交互式地图
虽然使用这个数据来从纬度和经度坐标来求解时区可能是诱人的,但是考虑到这些是点而不是边界。最好的办法是确定最近的点,在许多情况下,这不是正确的点
考虑以下示例:
这两个方块代表不同的时区,其中每个方块中的黑点是参考位置,如zone.tab中的内容。蓝点代表我们试图为其找到时区的位置。显然,此位置位于左侧的橙色区域内,但如果我们只看距离参考点最近的距离,它将解析为右侧的绿色区域。尝试以下代码,以便在当前NTP时间客户端上使用Java的Google时区API并从时间戳转换为正确的UTC\u Datetime\u:
String获取xml服务器响应(String服务器url){
URL xml_server=null;
字符串xmltext=“”;
输入流输入;
试一试{
xml\u server=新URL(服务器URL);
试一试{
input=xml_server.openConnection().getInputStream();
最终BufferedReader读取器=新的BufferedReader(新的InputStreamReader(输入));
最终StringBuilder sBuf=新StringBuilder();
字符串行=null;
试一试{
而((line=reader.readLine())!=null)
{
sBuf.append(行);
}
}
捕获(IOE异常)
{
e(e.getMessage(),“XML解析器,stream2string 1”);
}
最后{
试一试{
input.close();
}
捕获(IOE异常)
{
e(e.getMessage(),“XML解析器,stream2string 2”);
}
}
xmltext=sBuf.toString();
}捕获(IOE1异常){
e1.printStackTrace();
}
}捕获(格式错误的异常e1){
e1.printStackTrace();
}
返回xmltext;
}
私有字符串从时间戳(长时间戳)获取UTC日期时间{
试一试{
Calendar cal=Calendar.getInstance();
时区tz=cal.getTimeZone();
int tzt=tz.getOffset(System.currentTimeMillis());
时间戳-=tzt;
//DateFormat sdf=新的SimpleDataFormat(“yyyy-MM-dd HH:MM:ss”,Locale.getDefault());
DateFormat sdf=新的SimpleDataFormat();
日期netDate=(新日期(时间戳));
返回sdf.format(netDate);
}
捕获(例外情况除外){
返回“”;
}
}
NTP\U UTC\U类时间
{
私有静态最终字符串TAG=“SntpClient”;
专用静态最终整数接收时间偏移=32;
专用静态f
String get_xml_server_reponse(String server_url){
URL xml_server = null;
String xmltext = "";
InputStream input;
try {
xml_server = new URL(server_url);
try {
input = xml_server.openConnection().getInputStream();
final BufferedReader reader = new BufferedReader(new InputStreamReader(input));
final StringBuilder sBuf = new StringBuilder();
String line = null;
try {
while ((line = reader.readLine()) != null)
{
sBuf.append(line);
}
}
catch (IOException e)
{
Log.e(e.getMessage(), "XML parser, stream2string 1");
}
finally {
try {
input.close();
}
catch (IOException e)
{
Log.e(e.getMessage(), "XML parser, stream2string 2");
}
}
xmltext = sBuf.toString();
} catch (IOException e1) {
e1.printStackTrace();
}
} catch (MalformedURLException e1) {
e1.printStackTrace();
}
return xmltext;
}
long get_time_zone_time_l(GeoPoint gp){
String raw_offset = "";
String dst_offset = "";
double Longitude = gp.getLongitudeE6()/1E6;
double Latitude = gp.getLatitudeE6()/1E6;
long tsLong = System.currentTimeMillis()/1000;
if (tsLong != 0)
{
// https://maps.googleapis.com/maps/api/timezone/xml?location=39.6034810,-119.6822510×tamp=1331161200&sensor=false
String request = "https://maps.googleapis.com/maps/api/timezone/xml?location="+Latitude+","+ Longitude+ "×tamp="+tsLong +"&sensor=false";
String xmltext = get_xml_server_reponse(request);
if(xmltext.compareTo("")!= 0)
{
int startpos = xmltext.indexOf("<TimeZoneResponse");
xmltext = xmltext.substring(startpos);
XmlPullParser parser;
try {
parser = XmlPullParserFactory.newInstance().newPullParser();
parser.setInput(new StringReader (xmltext));
int eventType = parser.getEventType();
String tagName = "";
while(eventType != XmlPullParser.END_DOCUMENT) {
switch(eventType) {
case XmlPullParser.START_TAG:
tagName = parser.getName();
break;
case XmlPullParser.TEXT :
if (tagName.equalsIgnoreCase("raw_offset"))
if(raw_offset.compareTo("")== 0)
raw_offset = parser.getText();
if (tagName.equalsIgnoreCase("dst_offset"))
if(dst_offset.compareTo("")== 0)
dst_offset = parser.getText();
break;
}
try {
eventType = parser.next();
} catch (IOException e) {
e.printStackTrace();
}
}
} catch (XmlPullParserException e) {
e.printStackTrace();
erg += e.toString();
}
}
int ro = 0;
if(raw_offset.compareTo("")!= 0)
{
float rof = str_to_float(raw_offset);
ro = (int)rof;
}
int dof = 0;
if(dst_offset.compareTo("")!= 0)
{
float doff = str_to_float(dst_offset);
dof = (int)doff;
}
tsLong = (tsLong + ro + dof) * 1000;
}
return tsLong;
}
GeoPoint gp = new GeoPoint(39.6034810,-119.6822510);
long Current_TimeZone_Time_l = get_time_zone_time_l(gp);
String get_time_zone_time_geonames(GeoPoint gp){
String erg = "";
double Longitude = gp.getLongitudeE6()/1E6;
double Latitude = gp.getLatitudeE6()/1E6;
String request = "http://ws.geonames.org/timezone?lat="+Latitude+"&lng="+ Longitude+ "&style=full";
URL time_zone_time = null;
InputStream input;
// final StringBuilder sBuf = new StringBuilder();
try {
time_zone_time = new URL(request);
try {
input = time_zone_time.openConnection().getInputStream();
final BufferedReader reader = new BufferedReader(new InputStreamReader(input));
final StringBuilder sBuf = new StringBuilder();
String line = null;
try {
while ((line = reader.readLine()) != null) {
sBuf.append(line);
}
} catch (IOException e) {
Log.e(e.getMessage(), "XML parser, stream2string 1");
} finally {
try {
input.close();
} catch (IOException e) {
Log.e(e.getMessage(), "XML parser, stream2string 2");
}
}
String xmltext = sBuf.toString();
int startpos = xmltext.indexOf("<geonames");
xmltext = xmltext.substring(startpos);
XmlPullParser parser;
try {
parser = XmlPullParserFactory.newInstance().newPullParser();
parser.setInput(new StringReader (xmltext));
int eventType = parser.getEventType();
String tagName = "";
while(eventType != XmlPullParser.END_DOCUMENT) {
switch(eventType) {
case XmlPullParser.START_TAG:
tagName = parser.getName();
break;
case XmlPullParser.TEXT :
if (tagName.equalsIgnoreCase("time"))
erg = parser.getText();
break;
}
try {
eventType = parser.next();
} catch (IOException e) {
e.printStackTrace();
}
}
} catch (XmlPullParserException e) {
e.printStackTrace();
erg += e.toString();
}
} catch (IOException e1) {
e1.printStackTrace();
}
} catch (MalformedURLException e1) {
e1.printStackTrace();
}
return erg;
}
GeoPoint gp = new GeoPoint(39.6034810,-119.6822510);
String Current_TimeZone_Time = get_time_zone_time_geonames(gp);
var d = new Date();
var usertime = d.toLocaleString();
//some browsers / OSs provide the timezone name in their local string
var tzsregex = /\b(ACDT|ACST|ACT|ADT|AEDT|AEST|AFT|AKDT|AKST|AMST|AMT|ART|AST|AWDT|AWST|AZOST|AZT|BDT|BIOT|BIT|BOT|BRT|BST|BTT|CAT|CCT|CDT|CEDT|CEST|CET|CHADT|CHAST|CIST|CKT|CLST|CLT|COST|COT|CST|CT|CVT|CXT|CHST|DFT|EAST|EAT|ECT|EDT|EEDT|EEST|EET|EST|FJT|FKST|FKT|GALT|GET|GFT|GILT|GIT|GMT|GST|GYT|HADT|HAEC|HAST|HKT|HMT|HST|ICT|IDT|IRKT|IRST|IST|JST|KRAT|KST|LHST|LINT|MART|MAGT|MDT|MET|MEST|MIT|MSD|MSK|MST|MUT|MYT|NDT|NFT|NPT|NST|NT|NZDT|NZST|OMST|PDT|PETT|PHOT|PKT|PST|RET|SAMT|SAST|SBT|SCT|SGT|SLT|SST|TAHT|THA|UYST|UYT|VET|VLAT|WAT|WEDT|WEST|WET|WST|YAKT|YEKT)\b/gi;
//in other browsers the timezone needs to be estimated based on the offset
var timezonenames = {"UTC+0":"GMT","UTC+1":"CET","UTC+2":"EET","UTC+3":"EEDT","UTC+3.5":"IRST","UTC+4":"MSD","UTC+4.5":"AFT","UTC+5":"PKT","UTC+5.5":"IST","UTC+6":"BST","UTC+6.5":"MST","UTC+7":"THA","UTC+8":"AWST","UTC+9":"AWDT","UTC+9.5":"ACST","UTC+10":"AEST","UTC+10.5":"ACDT","UTC+11":"AEDT","UTC+11.5":"NFT","UTC+12":"NZST","UTC-1":"AZOST","UTC-2":"GST","UTC-3":"BRT","UTC-3.5":"NST","UTC-4":"CLT","UTC-4.5":"VET","UTC-5":"EST","UTC-6":"CST","UTC-7":"MST","UTC-8":"PST","UTC-9":"AKST","UTC-9.5":"MIT","UTC-10":"HST","UTC-11":"SST","UTC-12":"BIT"};
var timezone = usertime.match(tzsregex);
if (timezone) {
timezone = timezone[timezone.length-1];
} else {
var offset = -1*d.getTimezoneOffset()/60;
offset = "UTC" + (offset >= 0 ? "+" + offset : offset);
timezone = timezonenames[offset];
}
//there are 3 variables can use to see the timezone
// usertime - full date
// offset - UTC offset time
// timezone - country
console.log('Full Date: ' + usertime);
console.log('UTC Offset: ' + offset);
console.log('Country Code Timezone: ' + timezone);
String data = null;
LocationManager locationManager = (LocationManager) getSystemService(LOCATION_SERVICE);
Location ll = locationManager.getLastKnownLocation(LocationManager.NETWORK_PROVIDER);
double lat = 0,lng = 0;
if(ll!=null){
lat=ll.getLatitude();
lng=ll.getLongitude();
}
System.out.println(" Last known location of device == "+lat+" "+lng);
InputStream iStream = null;
HttpURLConnection urlConnection = null;
try{
timezoneurl = timezoneurl+"location=22.7260783,75.8781553×tamp=1331161200";
// timezoneurl = timezoneurl+"location="+lat+","+lng+"×tamp=1331161200";
URL url = new URL(timezoneurl);
// Creating an http connection to communicate with url
urlConnection = (HttpURLConnection) url.openConnection();
// Connecting to url
urlConnection.connect();
// Reading data from url
iStream = urlConnection.getInputStream();
BufferedReader br = new BufferedReader(new InputStreamReader(iStream));
StringBuffer sb = new StringBuffer();
String line = "";
while( ( line = br.readLine()) != null){
sb.append(line);
}
data = sb.toString();
br.close();
}catch(Exception e){
Log.d("Exception while downloading url", e.toString());
}finally{
try {
iStream.close();
} catch (IOException e) {
// TODO Auto-generated catch block
e.printStackTrace();
}
urlConnection.disconnect();
}
try {
if(data!=null){
JSONObject jobj=new JSONObject(data);
timezoneId = jobj.getString("timeZoneId");
SimpleDateFormat format = new SimpleDateFormat("yyyy-MM-dd hh:mm:ss");
format.setTimeZone(TimeZone.getTimeZone(timezoneId));
Calendar cl = Calendar.getInstance(TimeZone.getTimeZone(timezoneId));
System.out.println("time zone id in android == "+timezoneId);
System.out.println("time zone of device in android == "+TimeZone.getTimeZone(timezoneId));
System.out.println("time fo device in android "+cl.getTime());
}
} catch (Exception e) {
// TODO Auto-generated catch block
e.printStackTrace();
}
public TimeZone nearestTimeZone(Location node) {
double bestDistance = Double.MAX_VALUE;
Location bestGuess = timeZones.get(0);
for (Location current : timeZones.subList(1, timeZones.size())) {
double newDistance = distanceInKilometers(node, current);
if (newDistance < bestDistance) {
bestDistance = newDistance;
bestGuess = current;
}
}
return java.util.TimeZone.getTimeZone(bestGuess.getZone());
}
protected double distanceInKilometers(final double latFrom, final double lonFrom, final double latTo, final double lonTo) {
final double meridianLength = 111.1;
return meridianLength * centralAngle(latFrom, lonFrom, latTo, lonTo);
}
protected double centralAngle(final Location from, final Location to) {
return centralAngle(from.getLatitude(), from.getLongitude(), to.getLatitude(), to.getLongitude());
}
protected double centralAngle(final double latFrom, final double lonFrom, final double latTo, final double lonTo) {
final double latFromRad = toRadians(latFrom),
lonFromRad = toRadians(lonFrom),
latToRad = toRadians(latTo),
lonToRad = toRadians(lonTo);
final double centralAngle = toDegrees(acos(sin(latFromRad) * sin(latToRad) + cos(latFromRad) * cos(latToRad) * cos(lonToRad - lonFromRad)));
return centralAngle <= 180.0 ? centralAngle : (360.0 - centralAngle);
}
protected double distanceInKilometers(final Location from, final Location to) {
return distanceInKilometers(from.getLatitude(), from.getLongitude(), to.getLatitude(), to.getLongitude());
}
}
curl -s https://api.teleport.org/api/locations/59.4372,24.7453/?embed=location:nearest-cities/location:nearest-city/city:timezone/tz:offsets-now | jq '._embedded."location:nearest-cities"[0]._embedded."location:nearest-city"._embedded."city:timezone"'
{
"_embedded": {
"tz:offsets-now": {
"_links": {
"self": {
"href": "https://api.teleport.org/api/timezones/iana:Europe%2FTallinn/offsets/?date=2015-09-07T11%3A20%3A09Z"
}
},
"base_offset_min": 120,
"dst_offset_min": 60,
"end_time": "2015-10-25T01:00:00Z",
"short_name": "EEST",
"total_offset_min": 180,
"transition_time": "2015-03-29T01:00:00Z"
}
},
"_links": {
"self": {
"href": "https://api.teleport.org/api/timezones/iana:Europe%2FTallinn/"
},
"tz:offsets": {
"href": "https://api.teleport.org/api/timezones/iana:Europe%2FTallinn/offsets/{?date}",
"templated": true
},
"tz:offsets-now": {
"href": "https://api.teleport.org/api/timezones/iana:Europe%2FTallinn/offsets/?date=2015-09-07T11%3A20%3A09Z"
}
},
"iana_name": "Europe/Tallinn"
}
import geocoders
g = geocoders.GoogleV3()
place, (lat, lng) = g.geocode('Fairbanks')
print place, (lat, lng)
Fairbanks, AK, USA (64.8377778, -147.7163889)
timezone = g.timezone((lat, lng))
print timezone.dst
from shapely.geometry import Polygon, Point
def get_tz_from_lat_lng(lat, lng):
for tz, geojson in timezones.iteritems():
coordinates = geojson['features'][0]['geometry']['coordinates']
polygon = Polygon(coordinates)
point = Point(lng, lat)
if polygon.contains(point):
return tz
import pytz
from datetime import datetime
from tzwhere import tzwhere
def timezoned_unixtime(latitude, longitude, dt):
tzw = tzwhere.tzwhere()
timezone_str = tzw.tzNameAt(latitude, longitude)
timezone = pytz.timezone(timezone_str)
timezone_aware_datetime = timezone.localize(dt, is_dst=None)
unix_time = (timezone_aware_datetime - datetime(1970, 1, 1, tzinfo=pytz.utc)).total_seconds()
return unix_time
dt = datetime(year=2017, month=1, day=17, hour=12, minute=0, second=0)
print timezoned_unixtime(latitude=40.747854, longitude=-74.004733, dt=dt)
function getTimezone(lat, long) {
var apiKey = 'INSERTAPIKEYHERE'
var url = 'https://maps.googleapis.com/maps/api/timezone/json?location=' + lat + ',' + long + '×tamp=1331161200&key=' + apiKey
var response = UrlFetchApp.fetch(url);
var data = JSON.parse(response.getContentText());
return data["timeZoneName"];
}
const googleMapsClient; // instantiate your client here
const zipcode = '90210'
const myDateThatNeedsTZAdjustment; // define your date that needs adjusting
// fetch lat/lng from google api by zipcode
const geocodeResponse = await googleMapsClient.geocode({ address: zipcode }).asPromise();
if (geocodeResponse.json.status === 'OK') {
lat = geocodeResponse.json.results[0].geometry.location.lat;
lng = geocodeResponse.json.results[0].geometry.location.lng;
} else {
console.log('Geocode was not successful for the following reason: ' + status);
}
// prepare lat/lng and timestamp of profile created_at to fetch time zone
const location = `${lat},${lng}`;
const timestamp = new Date().valueOf() / 1000;
const timezoneResponse = await googleMapsClient
.timezone({ location: location, timestamp: timestamp })
.asPromise();
const timeZoneId = timezoneResponse.json.timeZoneId;
// adjust by setting timezone
const timezoneAdjustedDate = DateTime.fromJSDate(
myDateThatNeedsTZAdjustment
).setZone(timeZoneId);
docker run -p 80:3000 tobias74/timezone-lookup:latest
curl "localhost:3000/timezone?latitude=12&longitude=34"