HomeiOS DevelopmentSwift Package deal Supervisor tutorial - The.Swift.Dev.

Swift Package deal Supervisor tutorial – The.Swift.Dev.


Discover ways to use the Swift Package deal Supervisor to deal with exterior dependencies, create your library or app on macOS and Linux.

Swift

Swift Package deal Supervisor fundamentals

Initially, please verify your Swift model in your machine earlier than we soar on this tutorial will solely work with the newest toolchain, so you will want Swift 5.2 or newer.


Apple Swift model 5.2.2 (swiftlang-1103.0.32.6 clang-1103.0.32.51)
Goal: x86_64-apple-darwin19.4.0



Creating apps

All of the arduous work is finished by the swift bundle command. You possibly can enter that right into a terminal window and see the out there subcommands. To generate a brand new bundle it is best to go along with the init command, in the event you do not present a sort flag, by default it’s going to create a library, however this time we would wish to make an executable utility.

swift bundle init --type executable
swift construct
swift run my-app


The compiler can construct your supply recordsdata with the assistance of the swift construct command. The executable file goes to be positioned somewehere underneath the .construct/ listing, in the event you run the newly created utility with the swift run my-app command, it is best to see the essential ‘Hi there, world!’ message.

Congratulations on your first command line Swift utility!

Now it is best to do some precise coding. Normally your swift supply recordsdata must be underneath the Sources listing, nonetheless you may wish to create some reusable elements on your app. So let’s put together for that state of affairs by beginning a model new library.


Making a library

We begin with the init command, however this time we do not specify the kind. We truly might enter swift bundle init --type library however that is approach too might phrases to kind. 😜 Additionally as a result of we’re making a library, the SPM device is gona present us some fundamental assessments, let’s run them too with the swift check command.


swift bundle init
swift check


If you happen to verify the file construction now you will not discover a fundamental.swift file contained in the supply folder, however as a substitute of this you will get an instance unit check underneath the Checks listing.

Now know the fundamentals. You may have an instance utility and a library, so let’s join them along with the assistance of the Swift Package deal Supervisor Manifest API!



The Manifest API – Package deal.swift

Each SPM bundle has a Package deal.swift manifest file within it. On this manifest file you possibly can outline all of your dependencies, targets and even the precise supply recordsdata on your challenge. On this part I will educate you the fundamentals of the manifest file.


Device model

Initially if you wish to assist the brand new manifest file format (aka. Swift 4 model), it’s important to set the swift-tools-version as remark in your manifest file.



Now you are able to work with the model new manifest API.


Dependencies

Let's simply add our library as a dependency for the principle utility first by creating a brand new bundle dependency contained in the Package deal.swift file. The primary argument is a bundle url string, which generally is a native file path or a distant url (normally a github repo hyperlink). Notice that it is best to add your dependency to the targets as effectively. Normally the particular identify of a bundle is outlined contained in the library manifest file.



import PackageDescription

let bundle = Package deal(
    identify: "my-app",
    dependencies: [
        .package(url: "../my-lib", .branch("master")),
    ],
    targets: [
        .target(name: "my-app", dependencies: [
            .product(name: "my-lib", package: "my-lib"),
        ]),
    ]
)


Now in the event you run swift construct you will fail to construct your sources. That is as a result of the SPM solely works with git repositories. This implies it's important to create a repository on your library. Let's transfer to the listing of the library and run the next instructions.


git init
git add .
git commit -m 'preliminary'


You also needs to notice that we specified the department within the bundle dependencies. You should use model numbers, and even commit hashes too. All of the out there choices are effectively written contained in the manifest api redesign proposal doc.

Now let's return to the appliance listing and replace the dependencies with the swift bundle replace command. This time it is going to have the ability to fetch, clone and eventually resolve our dependency.

You possibly can construct and run, nonetheless we have forgot to set the entry stage of our struct inside our library to public, so nothing goes to be seen from that API.


public struct my_lib {
    public var textual content = "Hi there, World!"

    public init() {}
}


Let's do some adjustments and commit them into the library's fundamental department.


git add .
git commit -m 'entry stage repair'


You are prepared to make use of the lib within the app, change the principle.swift file like this.


import my_lib

print(my_lib().textual content)


Replace the dependencies once more, and let's do a launch construct this time.


swift bundle replace
swift construct -c launch
swift run -c launch


With the -c or --configuration flag you can also make a launch construct.


Merchandise and targets

By default the SPM works with the next goal directories:

Common targets: bundle root, Sources, Supply, src, srcs. Check targets: Checks, bundle root, Sources, Supply, src, srcs.

This implies, that in the event you create .swift recordsdata inside these folders, these sources might be compiled or examined, relying on the file location. Additionally the generated manifest file comprises just one construct goal (like Xcode targets), however generally you wish to create a number of apps or libraries from the identical bundle. Let's change our Package deal.swift file a little bit bit, and see how can we make a model new goal.



import PackageDescription

let bundle = Package deal(
    identify: "my-app",
    dependencies: [
        .package(url: "../my-lib", .branch("master")),
        .package(url: "https://github.com/kylef/Commander", from: "0.8.0"),
    ],
    targets: [
        .target(name: "my-app", dependencies: [
            .product(name: "my-lib", package: "my-lib"),
        ]),
        .goal(identify: "my-cmd", dependencies: [
            .product(name: "Commander", package: "Commander"),
        ], path: "./Sources/my-cmd", sources: ["main.swift"]),
    ]
)


We simply created a brand new dependency from github, and a model new goal which is able to include solely the fundamental.swift file from the Sources/my-cmd listing. Now let's create this listing and add the supply code for the brand new app.


import Basis
import Commander

let fundamental = command { (identify:String) in
    print("Hi there, (identify.capitalized)!")
}

fundamental.run()


Construct the challenge with swift construct and run the newly created app with one additional identify parameter. Hopefully you will see one thing like this.


swift run my-cmd visitor


So we simply made a model new executable goal, nonetheless if you would like to reveal your targets for different packages, it is best to outline them as merchandise as effectively. If you happen to open the manifest file for the library, you will see that there's a product outlined from the library goal. This manner the bundle supervisor can hyperlink the product dependencies primarily based on the given product identify.

You possibly can outline static or dynamic libraries, nonetheless it is suggested to make use of automated so the SPM can determine acceptable linkage.



import PackageDescription

let bundle = Package deal(
    identify: "my-lib-package",
    merchandise: [
        .library(name: "my-lib", targets: ["my-lib"]),
        
    ],
    dependencies: [
        
    ],
    targets: [
        .target(name: "my-lib", dependencies: []),
        .testTarget(identify: "my-libTests", dependencies: ["my-lib"]),
    ]
)


Deployment goal, different construct flags

Generally you will must specify a deployment goal on your bundle. Now that is attainable with the Swift Package deal Supervisor (it was buggy a log time in the past), you simply have to offer some additional arguments for the compiler, in the course of the construct section.


swift construct -Xswiftc "-target" -Xswiftc "x86_64-apple-macosx10.12"


Additionally if you want to outline construct flags, that is attainable too.


swift construct -Xswiftc "-D" -Xswiftc "DEBUG"


Now in your supply code you possibly can verify for the existence of the DEBUG flag.


#if DEBUG
    print("debug mode")
#endif


If you wish to know extra in regards to the construct course of, simply kind swift construct --help and you may see your out there choices for the construct command.




Yet another factor

You possibly can generate Xcode tasks with the Swift Package deal Supervisor.


swift bundle generate-xcodeproj

This was SPM in a nutshell. Truly now we have coreverd extra than simply the fundamentals, we deep-dived a little bit into the Swift Package deal Supervisor, now you should be aware of targets, merchandise and many of the out there instructions, however there may be at all times extra to study. So if you wish to know much more about this superb device, it is best to verify the Swift evolution dashboard for more information. Take pleasure in. 😉


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