@photostructure/tz-lookup
Fast, memory-efficient time zone estimations from latitude and longitude.
Background
This is a fork of darkskyapp/tz-lookup which was abandoned in 2020. Ongoing maintenance is supported by PhotoStructure.
The following updates have been made to this fork:
-
The time zone database uses
2024b. Expect a bunch of changes if you're upgrading from the original tz-lookup
, including new zone names and shapes.
-
TypeScript types are now included.
-
The test suite now validates the result from this library with the more accurate library, geo-tz
, and provides benchmark timing results.
-
GitHub Actions now runs the test suite.
Caution! This package trades speed and size for accuracy.
TL;DR: if accuracy is important for your application and you don't need to support browsers, use geo-tz
.
The following comparisons were taken in January 2024 with the latest versions of Node.js, this package, and geo-tz.
Size
This package is 10x smaller than
geo-tz:
(72kb vs
892kb).
Speed
This package is roughly 100x faster than geo-tz
, as well. On an AMD 5950x (a fast desktop CPU from 2023) and Node.js v20:
- this package takes ~.05 milliseconds per lookup, and
geo-tz
takes ~5 milliseconds per lookup.
Accuracy
If you take a random point on the earth, roughly 30% of the results from this package won't match the (accurate) result from geo-tz
.
This drops to roughly 10% if you only pick points that are likely inhabited.
This error rate drops to roughly 5% if you consider time zones (like Europe/Vienna
and Europe/Berlin
) that result in equivalent time zone offset values throughout the year.
Here's a sample of some errors from this page for some random locations from running the test suite. The first mentioned IANA timezone is from this package, and the second (probably more correct) IANA timezone is from geo-tz
.
[
{
"lat": "24.881",
"lon": "59.984",
"error": "expected Asia/Tehran(210) to have the same standard-time offset as Etc/GMT-4(240)"
},
{
"lat": "46.345",
"lon": "48.766",
"error": "expected Asia/Atyrau(300) to have the same standard-time offset as Europe/Astrakhan(240)"
},
{
"lat": "59.275",
"lon": "134.481",
"error": "expected Asia/Vladivostok(600) to have the same standard-time offset as Asia/Khandyga(540)"
},
{
"lat": "20.645",
"lon": "100.190",
"error": "expected Asia/Yangon(390) to have the same standard-time offset as Asia/Jakarta(420)"
},
{
"lat": "38.012",
"lon": "0.082",
"error": "expected Europe/Madrid(60) to have the same standard-time offset as Etc/GMT(0)"
},
{
"lat": "-22.364",
"lon": "-57.449",
"error": "expected America/Campo_Grande(-240) to have the same standard-time offset as America/Asuncion(-180)"
},
{
"lat": "39.018",
"lon": "-73.842",
"error": "expected America/New_York(-240) to have the same daylight-savings-time offset as Etc/GMT+5(-300)"
},
{
"lat": "28.427",
"lon": "-95.793",
"error": "expected America/Chicago(-300) to have the same daylight-savings-time offset as Etc/GMT+6(-360)"
}
]
Usage
To install:
npm install @photostructure/tz-lookup
Node.JS usage:
var tzlookup = require("@photostructure/tz-lookup");
console.log(tzlookup(42.7235, -73.6931)); // prints "America/New_York"
Browser usage:
<script src="tz.js"></script>
<script>
alert(tzlookup(42.7235, -73.6931)); // alerts "America/New_York"
</script>
Please take note of the following:
-
The exported function call will throw an error if the latitude or longitude
provided are NaN or out of bounds. Otherwise, it will never throw an error
and will always return an IANA timezone database string. (Barring bugs.)
-
The timezones returned by this module are approximate: since the timezone
database is so large, lossy compression is necessary for a small footprint
and fast lookups. Expect errors near timezone borders far away from
populated areas. However, for most use-cases, this module's accuracy should
be adequate.
If you find a real-world case where this module's accuracy is inadequate,
please open an issue (or, better yet, submit a pull request with a failing
test) and I'll see what I can do to increase the accuracy for you.
Sources
Timezone data is sourced from Evan Siroky's timezone-boundary-builder.
The database was last updated on 30 December 2023 to use the 2023d dataset.
To regenerate the library's database yourself, you will need to install GDAL:
$ brew install gdal # on Mac OS X
$ sudo apt install gdal-bin # on Ubuntu
Then, simply execute rebuild.sh
. Expect it to take 10-30 minutes, depending
on your network connection and CPU.
License
To the extent possible by law, The Dark Sky Company, LLC has waived all
copyright and related or neighboring rights to this library.
Any subsequent changes since the fork are also licensed via cc0.