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LICENSE
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LICENSE
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MIT License
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Copyright (c) 2019 Greg Pomerantz
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Copyright (c) 2017 Elliot Chance and Izyumov Konstantin
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Permission is hereby granted, free of charge, to any person obtaining a copy
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of this software and associated documentation files (the "Software"), to deal
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in the Software without restriction, including without limitation the rights
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to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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copies of the Software, and to permit persons to whom the Software is
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furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be included in all
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copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
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SOFTWARE.
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README.md
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README.md
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# NSWrap
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Create Go language bindings for Objective-C.
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Using NSWrap, you can easily work with many MacOS interfaces, subclasses,
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library functions, protocols and delegates entirely in Go.
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# Getting Started
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## Installation
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NSWrap runs on MacOS and requires `clang` (from the XCode command line
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tools) and the MacOS system header files.
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```sh
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go get gitlab.wow.st/gmp/nswrap
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```
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From your `go` source directory, type:
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```sh
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cd gitlab.wow.st/gmp/nswrap/cmd/nswrap
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go install
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```
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Since NSWrap uses `clang` to generate an AST from Objective-C input files, you
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will need to install XCode and its associated command line tools. Enter
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`clang --version` from your terminal prompt to see if you have it installed
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already. You will also need to have the Objective-C header files for the
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various frameworks you want to use. Look for them in
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`/System/Library/Frameworks/*/Headers`.
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## Try Out An Example
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NSWrap is designed to be easy to use. To get started with an example, visit
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your Go source directory in a terminal and enter:
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```sh
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cd gitlab.wow.st/gmp/nswrap/examples/app
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go generate
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go build
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./app
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```
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# Basic Usage
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## YAML configuration file
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NSWrap takes no command line arguments. All configuration directives are
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included in a file named `nswrap.yaml`, which must be found in the directory
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from which NSWrap is invoked.
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```yaml
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# nswrap.yaml example
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package: MyWrapper
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inputfiles:
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- /System/Library/Frameworks/Foundation.framework/Headers/Foundation.h
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classes:
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- NSString
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- NSArray
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frameworks: [ Foundation ]
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pragma [ clang diagnostic ignored "-Wformat-security" ]
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```
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Regular expressions are permitted in the names of classes, functions,
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protocols and protocol methods, overridden superclass methods, and enums.
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When invoked, NSWrap creates a subdirectory with the name of the package
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as specified in `nswrap.yaml` or, by default, `ns` if a package name is not
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specified.
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In the output directory, a `main.go` file and, if required, `exports.go`,
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will be created or overwritten.
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To automatically invoke NSWrap, put a `//go:generate nswrap` comment at the
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top of your go source file and use `go generate` to create your Objective-C
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bindings.
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NSWrap will look for Objective-C header files where directed under
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`inputfiles` in your configuration file. CGo will also automatically
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compile and link any Objective-C implementation (`.m`) files found in
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this output directory, so put them in there if you are going to be
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hand-crafting any Objective-C implementations that need to go in the same
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package as your automatically generated bindings.
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## Class and Instance Methods
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NSWrap will create bindings for all classes identified in the `classes`
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directive of the configuration file. All of the class and instance methods
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are bound to Go and all types identified in the process are wrapped
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in Go types (as described below), except for methods that contain prohibited
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return types or paramater types (such as blocks and function pointers).
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```go
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s1 := ns.NSStringAlloc() // allocate and autorelease an instance of NSString
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s2 := ns.NSStringWithSting(s1) // call a class method of NSString
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class := ns.NSStringClass() // class method returning the class of NSString
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fmt.Println(s2.UTF8String()) // call UTF8String, an NSString instance method
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```
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As seen above, generated class methods will have the same name as their
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Objective-C method name, converted to the Go TitleCase convention, prefixed
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with the class name, and, if necessary, disambiguated for overloaded
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Objective-C methods. Any redundant initial
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characters are elided (e.g. the Objective-C
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`[NSString stringWithString:aString]` is shortened in Go to
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`ns.NSStringWithString(aString)`). Instance methods are carried over
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as-is but in TitleCase, and disambiguated for method overloading as described
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below.
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Note that while return types and parameter types needed for the binding will
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be defined and wrapped for you in Go types,
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you will not get any of their methods
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unless those types also appear in your NSWrap configuration file.
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For example, the `NSDictionaryWithObjects(...)` constructor takes two `NSArray`
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parameters, so if you want to use it you will probably want
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to have `NSArray` in your configuration file in addition to `NSDictionary`.
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## Overloaded Methods
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Because Go does not allow overloaded function definitions, NSWrap automatically
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disambiguates overloaded method names as required.
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This is done by successively adding parameter names onto the end of the Go
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function name until a unique name is created.
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For example, `NSString` provides the folowing `compare` methods:
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```objective-c
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- compare:
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- compare:options:
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- compare:options:range:
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- compare:options:range:locale:
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```
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These are translated into Go as:
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```go
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func (o NSString) Compare(string NSString) NSComparisonResult { }
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func (o NSString) CompareOptions(string NSString, mask NSStringCompareOptions) NSComparisonResult { }
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func (o NSString) CompareOptionsRange(string NSString, mask NSStringCompareOptions,
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rangeOfReceiverToCompare NSRange) NSComparisonResult { }
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func (o NSString) CompareOptionsRangeLocale(string NSString, mask NSStringCompareOptions,
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rangeOfReceiverToCompare NSRange, locale NSObject) NSComparisonResult { }
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```
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## NSString Helpers
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When NSWrap sees a class or instance method ending in `...WithString` (taking
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an Objective-C `NSString` as a parameter), it will automatically create an
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additional helper method ending in `WithGoString` that takes a Go string.
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```go
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str := ns.NSStringWithGoString("** your string goes here **")
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fmt.Printf("%s\n",str)
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```
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NSWrap creates a `Char` Go type that is equivalent to a C `char`. A pointer to
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`Char` in Go code can therefore be used with Objective-C functions and methods
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that take a `char*` parameter.
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NSWrap provides the helper functions `CharWithGoString` and `CharWithBytes`
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that take, respectively, Go strings and Go byte arrays (`[]byte`) and return
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`*Char` in Go. As demonstrated above, NSWrap also provides a `String()`
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methods so that the `*Char` and `NSString` types implement the `Stringer`
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Go interface.
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## Working With NSObject and its Descendants
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Objective-C Objects are represented in Go by a type and an interface as
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follows:
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```go
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type Id struct {
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ptr unsafe.Pointer
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}
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func (o Id) Ptr() unsafe.Pointer { return o.ptr }
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type NSObject interface {
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Ptr() unsafe.Pointer
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}
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```
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Other object types in Go are structs that directly or indirectly embed `Id`
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and therefore implement `NSObject`.
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* The NSObject Interface
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The `Id` type in Go represents the Objective-C type `id`, which is a pointer
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to an Objective-C object. Because `cgo` does not understand this type,
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NSWrap will always translate it to a `void*` on the C side.
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The `NSObject` interface in Go allows any `NS` type to be used with
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generic Objective-C functions. For example:
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```go
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o1 := ns.NSStringWithGoString("my string")
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s1 := ns.NSSetWithOBjects(o1)
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a := ns.NSMutableArrayWithObjects(o1,s1)
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```
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Since `NSString` and `NSSet` in Go both implement the `NSObject` interface,
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they can both be used as parameters to the `NSMutableArray` constructor.
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This will help you, too, with delegates
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(see below). Classes that accept delegates will generally accept any
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`NSObject` in ther `initWithDelegate()` or `setDelegate()` methods, and
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may or may not test at runtime if the provided object actually
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implements the required delegate protocol.
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* Inheritance
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Objective-C permits single inheritance. In Go, this is modeled using
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embedding. Top level objects that inherit from `NSObject` in Objective-C
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embed the Go type `Id` and therefore implement the `NSObject` Go interface.
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Other objects embed their superclass. For example:
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```go
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type NSArray struct { Id }
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func (o NSArray) Ptr() unsafe.Pointer { return o.ptr }
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func (o Id) NSArray() NSArray {
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ret := NSArray{}
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ret.ptr = o.ptr
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return ret
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}
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type NSMutableArray struct { NSArray }
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func (o NSMutableArray) Ptr() unsafe.Pointer { return o.ptr }
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func (o Id) NSMutableArray() NSMutableArray {...}
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```
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Observe:
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```go
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b := ns.NSButtonAlloc() // NSButton > NSControl > NSView > NSResponder > NSObject
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b.InitWithFrame(ns.NSMakeRect(100,100,200,200)) // Method of NSView
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|
b.SetTitle(nst("PUSH")) // Method of NSButton
|
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|
vw := win.ContentView()
|
||||||
|
vw.AddSubview(b.NSView) // Pass the button's embedded NSView
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|
```
|
||||||
|
In Go, `NSButtonAlloc` returns a Go object of type `ns.NSButton`. However,
|
||||||
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there is no `InitWithFrame` method for receivers of this type. This is
|
||||||
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not necessary because `NSButton` embeds `NSControl` which in turn embeds
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`NSView`. The `InitWithFrame` method only needs to be implemented for `NSView`
|
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receivers. Go will automatically find the indirectly embedded `NSView` and
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call the right method.
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|
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Go's type inference appears to be slightly broken (as of 1.12.1) because
|
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the following does not work. Look out for this if you are getting type
|
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errors:
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|
||||||
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```go
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|
//DO NOT DO THIS
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b := ns.NSButtonAlloc().InitWithFrame(ns.MakeRect(100,100,200,200))
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//For some reason Go thinks b has type ns.NSView, because InitWithFrame is defined for ns.NSView, even though
|
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//NSButtonAlloc() returns an ns.NSButton.
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|
```
|
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|
|
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|
Go has no trouble finding embedded methods for your `NSButton` and will
|
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happily search up the chain through `NSControl`, `NSView`, `NSResponder` and
|
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`NSObject` and all of their associated protocols and categories. As of this
|
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writing, on MacOS 10.13.6, NSWrap binds 90 instance methods for `NSObject`,
|
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so things like `Hash()`, `IsEqualTo()`, `ClassName()` and many many
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others are available and can be called on any object directly from Go.
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|
||||||
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Go does not perform the same type
|
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|
magic when you use variables as function or method parameters.
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If you want to pass your `NSButton` as a parameter to a method that accepts
|
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an `NSView` type, you need to explicitly pass the embedded `NSView`
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(`b.NSView` in the example above).
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|
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NSWrap creates a method for `Id` allowing objects to be converted
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at run-time to any other class. You will need this for Enumerators, which
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always return `Id`. See below under Enumerators for an example, but make
|
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sure you know (or test) what type your objects are before converting them,
|
||||||
|
or else you will get an exception from the Objective-C runtime.
|
||||||
|
|
||||||
|
Because `Id` can be converted to any type, and every object in the Foundation
|
||||||
|
classes inherits from `Id`, it is possible to send any message to any
|
||||||
|
object, if you are feeling lucky. You are going to have to explicitly
|
||||||
|
convert your object to the wrong type before the compiler will let you do this.
|
||||||
|
|
||||||
|
```go
|
||||||
|
a := ns.NSArrayWithObjects(o1,o2) // NSArray embeds Id
|
||||||
|
fmt.Println(a.NSString().UTF8String()) // DON'T!
|
||||||
|
// | | \-method of NSString, returns *Char, a "Stringer" type
|
||||||
|
// | \-method of Id returning NSString
|
||||||
|
// \-calls "String()" on its parameters
|
||||||
|
```
|
||||||
|
|
||||||
|
The above code will compile, but you will get an exception at runtime:
|
||||||
|
|
||||||
|
```sh
|
||||||
|
*** Terminating app due to uncaught exception 'NSInvalidArgumentException', reason:
|
||||||
|
'-[__NSArrayM UTF8String]: unrecognized selector sent to instance 0x4608940'
|
||||||
|
```
|
||||||
|
|
||||||
|
|
||||||
|
## Variadic Functions
|
||||||
|
|
||||||
|
As seen above with the `NSMutableArrayWithObjects()` constructor example,
|
||||||
|
NSWrap supports variadic
|
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|
functions. Because of the limitations of `cgo`, there is a numerical limit
|
||||||
|
to the number of parameters in a variadic function call, which defaults to
|
||||||
|
16 but can be set with the `vaargs` configuration directive.
|
||||||
|
|
||||||
|
## Pointers to Pointers
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||||||
|
|
||||||
|
When NSWrap encounters a pointer to a pointer to an Objective-C object, it
|
||||||
|
treats it as an array of objects and translates it into a pointer to a
|
||||||
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Go slice. If you are passing empty slices into these functions, be sure to
|
||||||
|
pre-allocate them to a sufficient size and capacity (see below for an
|
||||||
|
example). These Go slices can be used for input and output of methods and
|
||||||
|
functions.
|
||||||
|
|
||||||
|
Pointers to pointers are sometimes passed to Objective-C methods or functions
|
||||||
|
as a way of receiving output from those functions. In those cases, after the
|
||||||
|
CGo call, the method parameter is treated as a nil-terminated array of object
|
||||||
|
pointers. The object pointers are copied into the input Go slice, which is
|
||||||
|
then truncated to the appropriate length.
|
||||||
|
|
||||||
|
An example in Core Foundation is the `getObjects:andKeys:count` method for
|
||||||
|
`NSDictionary`:
|
||||||
|
|
||||||
|
```go
|
||||||
|
nst := ns.NSStringWithGoString
|
||||||
|
dict := ns.NSDictionaryWithObjectsForKeys(
|
||||||
|
ns.NSArrayWithObjects(nst("obj1"),nst("obj2")),
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||||||
|
ns.NSArrayWithObjects(nst("key1"),nst("key2")),
|
||||||
|
)
|
||||||
|
os,ks := make([]ns.Id,0,5), make([]ns.Id,0,5) // length 0, capacity 5 slices
|
||||||
|
dict.GetObjects(&os,&ks,5) // count = 5, must be the same size or smaller than the input slice capacity
|
||||||
|
fmt.Printf("Length of os is now %d\n",len(os)) // os and ks slices are now length = 2
|
||||||
|
for i,k := range ks {
|
||||||
|
fmt.Printf("-- %s -> %s\n",k.NSString(),os[i].NSString())
|
||||||
|
}
|
||||||
|
```
|
||||||
|
|
||||||
|
Using pointers to pointers is necessary in many Core Foundation situations
|
||||||
|
where you need to get an error message out of a function or method, for example
|
||||||
|
in `[NSString stringWithContentsOfURL...]`:
|
||||||
|
|
||||||
|
```go
|
||||||
|
err := make([]ns.NSError,1)
|
||||||
|
n1 = ns.NSStringWithContentsOfURLEncoding(ns.NSURLWithGoString("htttypo://example.com"),0,&err)
|
||||||
|
fmt.Printf("err: %s\n",err[0].LocalizedDescription())
|
||||||
|
//err: The file couldn’t be opened because URL type htttypo isn’t supported.
|
||||||
|
```
|
||||||
|
|
||||||
|
## Selectors
|
||||||
|
|
||||||
|
You can specify selectors using a Go string. The `Selector()` function
|
||||||
|
returns a Go type `SEL` which corresponds to a pointer to
|
||||||
|
`struct objc_selector` in C.
|
||||||
|
Among other things, this lets you set actions on `NSControls` and `NSMenuItems`:
|
||||||
|
|
||||||
|
```go
|
||||||
|
appMenu.AddItemWithTitle(
|
||||||
|
ns.NSStringWithGoString("Quit"),
|
||||||
|
ns.Selector("terminate:"),
|
||||||
|
ns.NSStringWithGoString("q"))
|
||||||
|
```
|
||||||
|
|
||||||
|
## Enumerators
|
||||||
|
|
||||||
|
NSWrap provides a `ForIn` method for the `NSEnumerator` type. Call it with a
|
||||||
|
`func(ns.Id) bool` parameter that returns `true` to continue and `false` to
|
||||||
|
stop the enumeration.
|
||||||
|
|
||||||
|
```go
|
||||||
|
a := ns.NSArrayWithObjects(o1,o2,o3)
|
||||||
|
a.ObjectEnumerator().ForIn(func (o ns.Id) bool {
|
||||||
|
switch {
|
||||||
|
case o.IsKindOfClass(ns.NSStringClass()):
|
||||||
|
fmt.Println(o.NSString().UTF8String())
|
||||||
|
return true // continue enumeration
|
||||||
|
default:
|
||||||
|
fmt.Println("Unknown class")
|
||||||
|
return false // terminate enumeration
|
||||||
|
}
|
||||||
|
})
|
||||||
|
```
|
||||||
|
|
||||||
|
As seen above, you can do the usual Objective-C thing for runtime type
|
||||||
|
identification.
|
||||||
|
|
||||||
|
## Enum Definitions
|
||||||
|
|
||||||
|
NSWrap translates C `enum` values into Go constants. The enums you need are
|
||||||
|
specified in `nswrap.yaml` by regular expression, which, in the case of named
|
||||||
|
enums, must match the name of the `enum` itself, or in the case of anonymous
|
||||||
|
enums, must match the name of the constant(s) you are looking for as declared
|
||||||
|
within the `enum`.
|
||||||
|
The generated constants receive Go types associated with their underlying C
|
||||||
|
types, which are automatically declared by NSWrap as needed.
|
||||||
|
|
||||||
|
The following configuration:
|
||||||
|
|
||||||
|
```yaml
|
||||||
|
# nswrap.yaml
|
||||||
|
inputfiles: [/System/Library/Frameworks/AppKit.framework/Headers/AppKit.h]
|
||||||
|
enums:
|
||||||
|
- _CLOCK.* # match constants in an anonymous enum
|
||||||
|
- NSWindowOrdering.* # match a named enum
|
||||||
|
```
|
||||||
|
|
||||||
|
results in:
|
||||||
|
|
||||||
|
```go
|
||||||
|
//ns/main.go
|
||||||
|
...
|
||||||
|
type NSWindowOrderingMode C.enum_NSWindowOrderingMode
|
||||||
|
const NSWindowAbove NSWindowOrderingMode = C.NSWindowAbove
|
||||||
|
const NSWindowBelow NSWindowOrderingMode = C.NSWindowBelow
|
||||||
|
const NSWindowOut NSWindowOrderingMode = C.NSWindowOut
|
||||||
|
|
||||||
|
const _CLOCK_REALTIME = C._CLOCK_REALTIME
|
||||||
|
const _CLOCK_MONOTONIC = C._CLOCK_MONOTONIC
|
||||||
|
const _CLOCK_MONOTONIC_RAW = C._CLOCK_MONOTONIC_RAW
|
||||||
|
...
|
||||||
|
```
|
||||||
|
|
||||||
|
|
||||||
|
## Memory management
|
||||||
|
|
||||||
|
You can call `Retain()`, `Release()` and `Autorelease()` on any object.
|
||||||
|
|
||||||
|
All allocation functions generated by NSWrap call `autorelease` before they
|
||||||
|
return an object. If you are not working in an environment (such as an
|
||||||
|
Application Delegate callback) that provides an autorelease pool, you can
|
||||||
|
create your own:
|
||||||
|
|
||||||
|
* Work directly with NSAutoreleasePool objects
|
||||||
|
|
||||||
|
```go
|
||||||
|
swamp := ns.NSAutoreleasePoolAlloc().Init()
|
||||||
|
del := ns.AppDelegateAlloc()
|
||||||
|
menu := ns.NSMenuAlloc().InitWithTitle(nst("Main"))
|
||||||
|
str := ns.NSStringWithGoString("these objects will be automatically deallocated when swamp is drained.")
|
||||||
|
...
|
||||||
|
swamp.Drain()
|
||||||
|
```
|
||||||
|
|
||||||
|
* ...or use the AutoreleasePool() helper function
|
||||||
|
|
||||||
|
NSWrap provides a helper function that can be passed a `func()` with no
|
||||||
|
parameters or return value. It is conventient to give it an anonymous function
|
||||||
|
and write your code in line, just like you would if you were using an
|
||||||
|
`@autoreleasepool { }` block.
|
||||||
|
|
||||||
|
```go
|
||||||
|
ns.AutoreleasePool(func() {
|
||||||
|
a := MyObjectAlloc().Init()
|
||||||
|
b := MyOtherObjectAlloc().Init()
|
||||||
|
...
|
||||||
|
})
|
||||||
|
```
|
||||||
|
|
||||||
|
You will need to make sure `NSAutoreleasePool` is included in the `classes`
|
||||||
|
directive in your configuration file before working with
|
||||||
|
`NSAutoreleasePool` objects or the `AutoreleasePool` helper function.
|
||||||
|
|
||||||
|
Memory management seems to work but there ought to be a comprehensive
|
||||||
|
tests before anyone should feel confident with it.
|
||||||
|
|
||||||
|
## Delegates
|
||||||
|
|
||||||
|
The `delegates` directive in `nswrap.yaml` creates a new Objective-C
|
||||||
|
class and associated Go wrapper functions. For example, the following
|
||||||
|
configuration file creates a class called `CBDelegate` that implements
|
||||||
|
the Objective-C protocols `CBCentralManagerDelegate` and
|
||||||
|
`CBPeripheralDelegate`, along with the Go code you need to allocate
|
||||||
|
and use instances of the class.
|
||||||
|
|
||||||
|
```yaml
|
||||||
|
# nswrap.yaml
|
||||||
|
inputfiles:
|
||||||
|
- /System/Library/Frameworks/CoreBluetooth.framework/Headers/CoreBluetooth.h
|
||||||
|
|
||||||
|
classes:
|
||||||
|
- CBCentralManager
|
||||||
|
|
||||||
|
delegates:
|
||||||
|
CBDelegate: # a name for your delegate class
|
||||||
|
CBCentralManagerDelegate: # a protocol to implement
|
||||||
|
- centralManagerDidUpdateState # messages you want to respond to
|
||||||
|
- centralManagerDidDiscoverPeripheral
|
||||||
|
- centralManagerDidConnectPeripheral
|
||||||
|
CBPeripheralDelegate: # another protocol to implement
|
||||||
|
- peripheralDidDiscoverServices
|
||||||
|
- peripheralDidDiscoverCharacteristicsForService
|
||||||
|
- peripheralDidUpdateValueForCharacteristic
|
||||||
|
...
|
||||||
|
```
|
||||||
|
|
||||||
|
The generated delegate inherits from NSObject and is identified as implementing
|
||||||
|
the protocols specified in `nswrap.yaml`.
|
||||||
|
|
||||||
|
When a delegate is activated and one of the callback methods named in the
|
||||||
|
configuration file is called, the delegate will call back into an exported Go
|
||||||
|
function. If a user-defined callback function has been specified,
|
||||||
|
it will be called with all of its parameters converted to their Go type
|
||||||
|
equivalents. User-defined callbacks are registered by calling a function
|
||||||
|
with the method name in TitleCase + `Callback`, so in the example above,
|
||||||
|
call `ns.CentralManagerDidUpdateStateCallback(...)` with the name of your
|
||||||
|
callback function to register to receive notifications when your central
|
||||||
|
manager updates its state.
|
||||||
|
|
||||||
|
The code in `examples/bluetooth` implements a working Bluetooth Low Energy
|
||||||
|
heart rate monitor entirely in Go.
|
||||||
|
|
||||||
|
The following Go code creates a CBDelegate object in Go,
|
||||||
|
registers a callback for `centralManagerDidUpdateState`, allocates
|
||||||
|
a CBCentralManager object, and installs our delegate:
|
||||||
|
|
||||||
|
```go
|
||||||
|
func cb(c ns.CBCentralManager) {
|
||||||
|
...
|
||||||
|
}
|
||||||
|
|
||||||
|
func main() {
|
||||||
|
...
|
||||||
|
del := ns.CBDelegateAlloc()
|
||||||
|
del.CentralManagerDidUpdateStateCallback(cb)
|
||||||
|
cm := ns.CBCentralManagerAlloc().InitWithDelegateQueue(del,queue)
|
||||||
|
```
|
||||||
|
|
||||||
|
When you provide user-defined callback functions, you will need to specify
|
||||||
|
them with exactly the right type,
|
||||||
|
matching NSWrap's generated Go wrapper types for the callback function and
|
||||||
|
the Go types for all of its parameters. If `go build` fails, the error
|
||||||
|
messages will point you in the right direction.
|
||||||
|
|
||||||
|
```
|
||||||
|
$ go build
|
||||||
|
./main.go:127:43: cannot use didFinishLaunching (type func(ns.NSNotification, bool)) as type
|
||||||
|
func(ns.NSNotification) in argument to del.ApplicationDidFinishLaunchingCallback
|
||||||
|
```
|
||||||
|
In the above example, build failed because an extra `bool` parameter was
|
||||||
|
included in the callback function. The compiler is telling you that the right
|
||||||
|
type for the callback is `func(ns.NSNotification)` with no return value.
|
||||||
|
|
||||||
|
## Working with AppKit
|
||||||
|
|
||||||
|
You can wrap the AppKit framework classes and create an NSApplication
|
||||||
|
Delegate. This allows you to build a Cocoa app entirely in Go.
|
||||||
|
|
||||||
|
Because AppKit uses thread local storage, you will need to make sure all
|
||||||
|
calls into it are done from the main OS thread. This can be a challenge in
|
||||||
|
Go even though runtime.LockOSThread() is supposed to provide
|
||||||
|
this functionality. Good luck with that!
|
||||||
|
|
||||||
|
This is actually a full working example:
|
||||||
|
|
||||||
|
```yaml
|
||||||
|
# nswrap.yaml
|
||||||
|
inputfiles:
|
||||||
|
- /System/Library/Frameworks/AppKit.framework/Headers/AppKit.h
|
||||||
|
|
||||||
|
classes:
|
||||||
|
- NSApplication
|
||||||
|
- NSWindow
|
||||||
|
- NSString
|
||||||
|
- NSMenu
|
||||||
|
|
||||||
|
enums:
|
||||||
|
- NSApplication.*
|
||||||
|
- NSBackingStore.*
|
||||||
|
- NSWindowStyleMask.*
|
||||||
|
|
||||||
|
functions:
|
||||||
|
- NSMakeRect
|
||||||
|
|
||||||
|
delegates:
|
||||||
|
AppDelegate:
|
||||||
|
NSApplicationDelegate:
|
||||||
|
- applicationDidFinishLaunching
|
||||||
|
- applicationShouldTerminateAfterLastWindowClosed
|
||||||
|
frameworks: [ Foundation, AppKit, CoreGraphics ]
|
||||||
|
```
|
||||||
|
|
||||||
|
```go
|
||||||
|
//go:generate nswrap
|
||||||
|
package main
|
||||||
|
|
||||||
|
import (
|
||||||
|
"fmt"
|
||||||
|
"runtime"
|
||||||
|
"gitlab.wow.st/gmp/nswrap/examples/app/ns" // point to your NSWrap output directory
|
||||||
|
)
|
||||||
|
|
||||||
|
func didFinishLaunching(n ns.NSNotification) {
|
||||||
|
fmt.Println("Go: did finish launching!")
|
||||||
|
}
|
||||||
|
|
||||||
|
func shouldTerminate(s ns.NSApplication) ns.BOOL {
|
||||||
|
return 1
|
||||||
|
}
|
||||||
|
|
||||||
|
func main() {
|
||||||
|
runtime.LockOSThread()
|
||||||
|
a := ns.NSApplicationSharedApplication()
|
||||||
|
a.SetActivationPolicy(ns.NSApplicationActivationPolicyRegular)
|
||||||
|
del := ns.AppDelegateAlloc()
|
||||||
|
del.ApplicationDidFinishLaunchingCallback(didFinishLaunching)
|
||||||
|
del.ApplicationShouldTerminateAfterLastWindowClosedCallback(shouldTerminate)
|
||||||
|
a.SetDelegate(del)
|
||||||
|
|
||||||
|
win := ns.NSWindowAlloc().InitWithContentRectStyleMask(
|
||||||
|
ns.NSMakeRect(200,200,600,600),
|
||||||
|
ns.NSWindowStyleMaskTitled | ns.NSWindowStyleMaskClosable,
|
||||||
|
ns.NSBackingStoreBuffered,
|
||||||
|
0,
|
||||||
|
)
|
||||||
|
win.SetTitle(ns.NSStringWithGoString("Hi World"))
|
||||||
|
win.MakeKeyAndOrderFront(win)
|
||||||
|
a.Run()
|
||||||
|
}
|
||||||
|
```
|
||||||
|
|
||||||
|
Pretty simple right? Not really, NSWrap just generated almost 15,000 lines of
|
||||||
|
code. See `examples/app` for a slightly more complex example with working
|
||||||
|
menus and visual format-based auto layout.
|
||||||
|
|
||||||
|
## Subclasses
|
||||||
|
|
||||||
|
NSWrap includes functionality to generate subclasses as specified in
|
||||||
|
`nswrap.yaml`.
|
||||||
|
|
||||||
|
You can override existing methods or create new methods with any type
|
||||||
|
signature you specify using Objective-C method signature syntax.
|
||||||
|
|
||||||
|
```yaml
|
||||||
|
# nswrap.yaml
|
||||||
|
...
|
||||||
|
subclasses:
|
||||||
|
myClass: # the name of the new class
|
||||||
|
yourClass: # the superclass to inherit from
|
||||||
|
- init.* # what methods to override
|
||||||
|
- -(void)hi_there:(int)x # Objective-C prototype of your new method(s)
|
||||||
|
# |--note the hyphen indicating that this is an instance method
|
||||||
|
```
|
||||||
|
|
||||||
|
In the example above, your new class will be named `myClass` in Objective-C
|
||||||
|
and `MyClass` in Go. It will override any `init` methods found in `yourClass`
|
||||||
|
(which must be defined in one of the header files included in the
|
||||||
|
`inputfiles` directive of `nswrap.yaml`). In addition, because the second
|
||||||
|
entry under `yourClass` starts with a `-`, it will be treated as a new
|
||||||
|
instance method definition for `myClass`. The remainder of the line will
|
||||||
|
be parsed as an Objective-C method prototype in order to determine the method
|
||||||
|
name, its return type, and the names and types of its parameters if any.
|
||||||
|
|
||||||
|
Since multiple inheritance is not permitted in Objective-C, it is not possible
|
||||||
|
to specify more than one superclass in a `subclasses` entry.
|
||||||
|
|
||||||
|
You can use subclasses to define new AppKit controls with configurable
|
||||||
|
callbacks. For example, lets make an `NSButton` that calls back into Go when
|
||||||
|
you press it:
|
||||||
|
|
||||||
|
```yaml
|
||||||
|
# nswrap.yaml
|
||||||
|
...
|
||||||
|
subclasses:
|
||||||
|
GButton:
|
||||||
|
NSButton:
|
||||||
|
- -(void)pressed
|
||||||
|
...
|
||||||
|
```
|
||||||
|
|
||||||
|
```go
|
||||||
|
func pressed() {
|
||||||
|
fmt.Println("Button pressed!")
|
||||||
|
}
|
||||||
|
...
|
||||||
|
func didFinishLaunching(n ns.NSNotification) {
|
||||||
|
...
|
||||||
|
button := ns.GButtonAlloc()
|
||||||
|
button.Init()
|
||||||
|
button.PressedCallback(pressed) # register user-defined callback
|
||||||
|
button.SetAction(ns.Selector("pressed"))
|
||||||
|
button.SetTarget(button)
|
||||||
|
button.SetTitle(ns.NSStringWithGoString("PUSH"))
|
||||||
|
...
|
||||||
|
}
|
||||||
|
```
|
||||||
|
|
||||||
|
Later on you can add the your new button to a view and tell Cocoa where to lay
|
||||||
|
it out. It's all a little verbose, but that's because for some reason you
|
||||||
|
decided to write Objective-C code in Go.
|
||||||
|
|
||||||
|
# Limitations
|
||||||
|
|
||||||
|
## Blocks
|
||||||
|
|
||||||
|
NSWrap does not support methods or functions that take C functions or blocks
|
||||||
|
as parameters or return values.
|
||||||
|
|
||||||
|
# Why?
|
||||||
|
|
||||||
|
Um, I was trying to make a nice modern Go binding for CoreBluetooth on MacOS
|
||||||
|
and got carried away.
|
||||||
|
|
||||||
|
# Acknowledgements
|
||||||
|
|
||||||
|
This work was inspired by Maxim's excellent
|
||||||
|
[c-for-go](https://github.com/xlab/c-for-go). Much of the
|
||||||
|
infrastructure was lifted from Elliot Chance's equally excellent
|
||||||
|
[c2go](https://github.com/elliotchance/c2go). Kiyoshi Murata's
|
||||||
|
post on [coderwall.com](https://coderwall.com/p/l9jr5a/accessing-cocoa-objective-c-from-go-with-cgo)
|
||||||
|
was an essential piece of inspiration.
|
||||||
|
|
||||||
|
The combinatorial Objective-C type parsers are mine as are the
|
||||||
|
Objective-C and Go code generators, so this is where you will find
|
||||||
|
all of the bugs.
|
Loading…
Reference in New Issue
Block a user