Libraries and Frameworks
Martin Fowler on InversionOfControl
Library is essentially a set of functions that you can call, these days usually organized into classes. Each call does some work and returns control to the client.
Framework embodies some abstract design, with more behavior built in. In order to use it you need to insert your behavior into various places in the framework either by subclassing or by plugging in your own classes. The framework's code then calls your code at these points. The main control of the program is inverted, moved away from you to the framework. (Inversion of Control)
Mach-O file format(.o)
To create programs, developers convert source code to object files. The object files are then packaged into executable code or static libraries.
When you're compiling the source files you are basically making object files, using the Mach-O (Mach Object) file format[About] These files are the core building blocks of your applications, frameworks, and libraries (both dynamic and static).
Libraries and Frameworks on iOS
Library is a collection of resources and the code itself, compiled for one or more architectures. It consists of
Mach-O object files[check static or dynamic]
Static library - .a(aka
static archive library,
static linked shared library) - When linking such a library into an application, the
static linker during compilation time will collect the object files from the library and package them along with the application object code into one single executable file.
Xcode 9.0, static Swift library is supported.
Dynamic library - .dylib(aka
dynamic shared library,
dynamically linked library) are dynamically linked with the app’s executable at load or runtime, but not copied into it.
All iOS and macOS system libraries are
dynamic. Hence our apps will benefit from the future improvements that Apple makes to standard library frameworks without creating and shipping new builds.
text-based stub library - .tbd, that provide a much more compact version of the stub of
dynamic library for use in the SDK, and help to significantly reduce its download size.
Bundle is a file directory with subdirectories inside. On iOS,
bundles serve to conveniently ship related files together in one package – for instance, images, nibs, or compiled code. The system treats it as one file and you can access bundle resources without knowing its internal structure.
Framework - .framework is a
bundle or package containing a
static or dynamic library[static vs dynamic framework], header files and resources. Frameworks are a very neat way to group related resources together, provide an executable along with the public headers in one package that is easy to install.
Static framework contain a
static library packaged with its resources.
Dynamic framework contain the
dynamic library with its resources. In addition to that,
dynamic framework may conveniently include different versions of the same
dynamic library in the same framework!
Embedded framework is a
Dynamic framework and is placed within an app’s sandbox and are only available to that app. This type was created first of all for extension to share common code and resources. It's available when Deployment target is iOS 8+.
Umbrella framework[Aggregate target] is a framework bundle that contains other frameworks(aka
Nested Framework). While it is possible to create umbrella frameworks, doing so is unnecessary for most developers and is not recommended. [Official doc]
Fake Framework - A fake framework is a common technique of “transforming” a bundle into a framework but is really a
bundle. For instance, when you create your own framework and use a 3rd party library inside, you can ship your code and 3rd party library together (as one framework). One of realization fake framework.
Universal Library or Framework (aka
Fat)[lipo] [Aggregate target] [Could not find module for architecture] - contains multiple architectures.
Current setting you can check in
Build Active Architecture Only[ONLY_ACTIVE_ARCH]
- Simulator - x86_64, i386
- Device - armv7, armv7s, arm64
This approach is used when you share a private binary. As a result a consumer has to have a possibility to work with your framework on real device and simulator. For example
CocoaPods[About] build it for a closed-source pod
Dependencies are simply pre-requisites for building a target. Target dependency management is one of the more complex aspects in Xcode. Understanding of Xcode’s toolchain and build environment configuration helps with making dependencies more manageable.
How to build and use a Static Library:
Swift consumer -> Swift static library
Swift consumer -> Objective-C static library
Objective-C consumer -> Swift static library
Objective-C consumer -> Objective-C static library
How to build and use a Dynamic Framework[change to static]
Swift consumer -> Swift dynamic framework
Swift consumer -> Objective-C dynamic framework
Objective-C consumer -> Swift dynamic framework
Objective-C consumer -> Objective-C dynamic framework
Xcode Build System
The source. Also read more here, here, here, here, here, here