To use ForecastIO, all you need is an API key for the Dark Sky API. ForecastIO supports iOS (≥9.0), macOS (≥10.10), watchOS (≥2.0), and tvOS (≥9.0).
ForecastIO is available through CocoaPods. To install
it, simply add the following line to your Podfile
:
pod "ForecastIO"
To integrate using Carthage, specify it in your Cartfile
:
github "sxg/ForecastIO"
A Swift 2.3 compatible version of ForecastIO is available on the swift2.3 branch. This version is frozen at the ForecastIO 2.1.1 API and no longer supported. To install the Swift 2.3 compatible version of ForecastIO, simply add the following line to your Podfile
:
pod "ForecastIO", :git => "https://github.com/sxg/ForecastIO.git", :branch => "swift2.3"
To integrate the Swift 2.3 compatible version using Carthage, specify it in your Cartfile
:
github "sxg/ForecastIO" "swift2.3"
The full documentation for ForecastIO is available on CocoaDocs.
ForecastIO includes a full suite of unit tests with 100% code coverage.
First, create a DarkSkyClient
with your API key:
import ForecastIO
...
let client = DarkSkyClient(apiKey: "YOUR_API_KEY_HERE")
You can choose units that you want Forecast
responses to use:
client.units = .si
The following units are supported:
- SI
- US (default)
- Canadian
- UK
- Auto (uses the local units for the location for which you are requesting weather data)
More details about the units of each property are available in the Dark Sky API docs.
You can also choose the language that you want Forecast
responses to use:
client.language = .english
Many languages are supported (a full list is available here). If no language is specified, English is used as the default.
With the DarkSkyClient
, you can make two kinds of requests. The first will get the current Forecast
for a particular location:
let myLoc = CLLocationCoordinate2D(latitude: myLat, longitude: myLon)
client.getForecast(location: myLoc) { result in
switch result {
case .success(let currentForecast, let requestMetadata):
// We got the current forecast!
case .failure(let error):
// Uh-oh. We have an error!
}
}
The second kind of request is called a time machine request, and it will get a Forecast
for a particular location at a particular time:
let myLoc = CLLocationCoordinate2D(latitude: myLat, longitude: myLon)
client.getForecast(location: myLoc, time: myTime) { result in
switch result {
case .success(let forecast, let requestMetadata):
// We got the forecast!
case .failure(let error):
// Uh-oh. We have an error!
}
}
The Forecast
you receive will have metadata as well as DataPoint
s and DataBlock
s associated with it. A DataPoint
such as the currently
property on Forecast
represents various weather phenomena occurring at a specific instant in time. A DataBlock
such as the minutely
, hourly
, and daily
properties on Forecast
represent the various weather phenomena occurring over a period of time and are represented by an array of DataPoint
s.
DataPoint
s and DataBlock
s contain a large amount of information, and any of these fields can be excluded from the API response through the excludeFields
parameter of the getForecast
methods. excludeFields
is optional and defaults to an empty array, meaning no data will be excluded from the API response. Alternatively, if you need more data, you can set the extendHourly
parameter of the getForecast
method to true
to make the hourly
property on Forecast
return hourly data for a full week instead of 24 hours. extendHourly
is an optional parameter and defaults to false
. extendHourly
is not supported on time machine requests.
For a full list of properties defined on all models, consult the full documentation on CocoaDocs.
Satyam Ghodasara, sghodas@gmail.com, @_Satyam_
ForecastIO is available under the MIT license. See the LICENSE
file for more info.