Resolve timezones from a location using data from the timezone-boundary-builder project.
Add tz_world
to your list of dependencies in mix.exs
:
def deps do
[
{:tz_world, "~> 1.3"}
]
end
After adding TzWorld
as a dependency, run mix deps.get
to install it. Then run mix tz_world.update
to install the timezone data.
NOTE No data is installed with the package and until the data is installed
with mix tz_world.update
all calls to TzWorld.timezone_at/1
will return
{:error, :time_zone_not_found}
.
There is no mandatory configuration required however four options may be configured in config.exs
:
config :tz_world,
# Configure a custom TzWorld backend. It will be used
# as the default backend in calls to `TzWorld.timezone_at/1`
backend: MyTzWorldBackend,
# The default is the `priv` directory of `:tz_world`
data_dir: "geodata/directory",
# The default is either the trust store included in the
# libraries `CAStore` or `certifi` or the platform
# trust store.
cacertfile: "path/to/ca_trust_store",
# The default is no options, however one can set any `httpc` client options.
httpc_opts: [
proxy: {{String.to_charlist(proxy_host), proxy_port}, []}
]
TzWorld
provides alternative strategies for managing access to the backend data. Each backend is implemented as a GenServer
that needs to be either manually started with BackendModule.start_link/1
or preferably added to your application's supervision tree.
The recommended backend is TzWorld.Backend.EtsWithIndexCache
unless the host system is memory constrained in which case TzWorld.Backend.DetsWithIndexCache
is recommended.
For example:
defmodule MyApp.Application do
@moduledoc false
use Application
def start(_type, _args) do
children = [
...
TzWorld.Backend.EtsWithIndexCache
]
opts = [strategy: :one_for_one, name: MyApp.Supervisor]
Supervisor.start_link(children, opts)
end
end
The following backends are available:
-
TzWorld.Backend.Memory
which retains all data in memory for fast (but not fastest) performance at the expense of using approximately 1GB of memory -
TzWorld.Backend.Dets
which uses Erlang's:dets
data store. This uses negligible memory at the expense of slow access times (approximately 500ms in testing) -
TzWorld.Backend.DetsWithIndexCache
which balances memory usage and performance. This backend is recommended in most situations since its performance is similar toTzWorld.Backend.Memory
(about 5% slower in testing) and uses about 25Mb of memory -
TzWorld.Backend.Ets
which uses:ets
for storage. With the default settings of:compressed
for the:ets
table its memory consumption is about 512Mb but with access that is over 20 times slower thanTzWorld.Backend.DetsWithIndexCache
-
TzWorld.Backend.EtsWithIndexCache
which uses:ets
for storage with an additional in-memory cache of the bounding boxes. This still uses about 512Mb but is faster than any of the other backends by about 40%
Other backends can be implemented as long as they follow the TzWorld.Backend
behaviour. Custom backends should be configured in config.exs
or runtime.exs
under the :backend
key so that it will be considered as the default for calls
to TzWorld.timezone_at/1
. For example:
config :tz_world,
backend: MyTzWorldBackend
Installing tz_world
from source or from hex does not include the timezones
Geo JSON data. The data is required and to install or update it run:
mix tz_world.update
This task will download, transform, zip and store the timezones Geo data. Depending on internet and computer speed this may take a few minutes.
By default mix tz_world.update
will download geojson data that does not include time zone information for the oceans. There are two optional parameters that are accepted by mix tz_world.update
that can be used to configure the desired behaviour:
-
--include-oceans
will download the geojson data, including data for the oceans. This give almost complete global coverage of time zone data. The default is--no-include-oceans
which does not include data that covers the oceans. The geojson data including the oceans is about 10% larger than the data that does not include the oceans. -
--force
will force an update to the geojson data even if the installed data is the latest release. This option can be useful if you choose to switch from the data without ocean coverage to the data with ocean coverage (and the reverse). The default is--no-force
.
From time-to-time the timezones Geo JSON data is updated in the upstream project. The mix task mix tz_world.update
will update the data if it is available.
A running application can also be instructed to reload the data by executing TzWorld.reload_timezone_data
.
The primary API is TzWorld.timezone_at
. It takes either a Geo.Point
struct or a longitude
and latitude
in degrees. Note the parameter order: longitude
, latitude
. It also takes and optional second parameter, backend
, which must be one of the configured and running backend modules. By default timezone_at/2
will detect a running backend and will raise an exception if no running backend is found.
iex> TzWorld.timezone_at(%Geo.Point{coordinates: {3.2, 45.32}})
{:ok, "Europe/Paris"}
iex> TzWorld.timezone_at({3.2, 45.32})
{:ok, "Europe/Paris"}
iex> TzWorld.timezone_at(%Geo.PointZ{coordinates: {-74.006, 40.7128, 0.0}})
{:ok, "America/New_York"}
# Assumes that the downloaded data does not include
# data for the oceans (the default)
iex> TzWorld.timezone_at(%Geo.Point{coordinates: {1.3, 65.62}})
{:error, :time_zone_not_found}