From Swift 4 there may be native help for wrapping C libraries in Swift system module packages. This implies which you can simply ship your personal system modules, you simply need to study how one can use the Swift Bundle Supervisor.😅
Bridging header inside Xcode
Let’s fireplace up Xcode and begin a model new single view app iOS mission. Fill out the required fields, and naturally select the Swift language. Subsequent, add a brand new file and select the C file template.
After you enter the identify and examine the additionally create header file field, Xcode will ask you in regards to the Goal-C bridging header file. Simply create it. The identify of this file is hard, as a result of it additionally helps different C household languages, like pure C or C++, Goal-C and plus-plus. 😉
Let’s create a public header for the C code (factorial.h
):
#ifndef factorial_h
#outline factorial_h
#embody <stdio.h>
lengthy factorial(int n);
#endif /* factorial_h */
That is gona be the implementation of the tactic (factorial.c
):
#embody "factorial.h"
lengthy factorial(int n)
Contained in the bridging header, merely import the C header file:
#embody "factorial.h"
Someplace inside a Swift file you should utilize the factorial methodology:
print("Hiya (factorial(5))!")
// it really prints out "Hiya 120!" ;)
Compile and run. 🔨 It simply works. 🌟 Magic! 🌟
You are able to do the very same factor to make use of Goal-C lessons inside your Swift tasks. Apple has nice docs about this system, you need to learn that if you wish to know extra about combine and match.
Transport C code with SPM
The actual enjoyable begins once you begin utilizing the Swift Bundle Supervisor to construct C household based mostly sources. From Swift 3.0 you may construct C language targets with SPM. If you do not know how one can use the SPM device, you need to learn my complete tutorial in regards to the Swift Bundle Supervisor first.
The one factor that you will have to do it is a correct listing construction (plus you may want the bundle description file), and the bundle supervisor will take care all the remaining. Right here is all the things what you might want to construct the factorial instance with SPM.
import PackageDescription
let bundle = Bundle(
identify: "cfactorial",
merchandise: [
.library(name: "cfactorial", targets: ["cfactorial"]),
],
targets: [
.target(
name: "cfactorial",
path: "./Sources/factorial"
),
]
)
The listing construction ought to be one thing like this.
Sources
factorial
embody
factorial.h
factorial.c
You also needs to change the #embody "factorial.h"
line contained in the factorial.c
file to #embody "embody/factorial.h"
as a result of we made a brand new embody listing. That is NOT crucial, however when you do not put your umbrella header into the embody listing, you may want to supply a modulemap
file, and supply the proper location of your header. When you use the embody construction SPM will generate all the things for you.
With this system you may import your cfactorial
module from some other Swift bundle and name the factorial methodology, like we did by way of Xcode. You simply have so as to add this module as a dependency, oh by the way in which you may even name this module from one other C mission made with SPM! 💥
.bundle(url: "https://gitlab.com/theswiftdev/cfactorial", .department("grasp")),
Congratulations, you simply shipped your first C code with Swift Bundle Supervisor. This setup additionally works with C, C++, Goal-C, Goal-C++ code.
Wrapping C [system] modules with SPM
If you wish to wrap a C [system] library and name it instantly from Swift you may crete a model new wrapper bundle with the assistance of the Swift Bundle Supervisor. To start out you should utilize the swift bundle init --type system-module
command, this can create a generic template mission.
These are particular packages in keeping with Apple, you simply need to ship your personal modulemap
and a header file to show the wanted APIs, however first – clearly – you may want the standard bundle definition file:
import PackageDescription
let bundle = Bundle(
identify: "ccurl",
suppliers: [
.brew(["curl"]),
.apt(["libcurl4-openssl-dev"])
]
)
Contained in the Bundle.swift file you may set the suppliers for the library (like brew on macOS or aptitude for Ubuntu / Debian and the others). Right here is an effective recommendation for you: sudo apt-get set up pkg-config
below Linux to make issues work, as a result of the system will seek for bundle header recordsdata with the assistance of the pkgConfig property. For instance if you wish to use libxml2
and pkg-config
is just not put in, you will not be capable of compile / use your system module.
Subsequent you may want a module.modulemap
file, which is fairly easy.
module ccurl [system] {
header "shim.h"
hyperlink "curl"
export *
}
In regards to the hyperlink property see the Xcode launch notes seek for “auto-linking”
Lastly add an additional shim.h header file to import all of the required APIs. Normally I do not prefer to import instantly the required header recordsdata from the modulemap
file that is why I’m utilizing this shim.h
– identify it such as you need – you may see in a second why am I preferring this methodology, however here’s a fundamental one.
#ifndef CLIB_SWIFT_CURL
#outline CLIB_SWIFT_CURL
#import <curl/curl.h>;
#endif
Let’s discuss why I like importing the shim file. If in case you have platform variations you should utilize a neat trick with the assistance of utilizing macros, for instance you may import header recordsdata from totally different areas when you examine for the __APPLE__
platform macro.
#ifndef CLIB_SWIFT_EXAMPLE
#outline CLIB_SWIFT_EXAMPLE
#ifdef __APPLE__
#embody "/usr/native/embody/instance.h"
#else
#embody "/usr/embody/instance.h"
#endif
#endif
Cool, huh? 🍎 + 🔨 = ❤️