In Swift 5.9, Apple is introducing Swift macros, which facilitate the generation of repetitive code during compilation. This enhancement enhances the expressiveness and readability of your app’s codebases. In the WWDC video unveiled by Apple on Tuesday, titled Write Swift Macros, Alex guides us meticulously through the process of creating a straightforward Swift macro. Prior to delving into this article, I highly recommend watching the aforementioned video for a comprehensive understanding.
Within this article, I will present an alternative example to further acquaint you with Swift macros and illustrate how you can leverage Xcode to optimize the development of your own Swift macros.
Example
It is evident that in Swift, when declaring a structure, one can choose to either explicitly initialize it or leave it uninitialized. Consequently, in this discourse, we shall conceive a Swift macro christened as StructInit.
With the utilization of the @StructInit keyword, the compiler seamlessly engenders the process of structure initialization on your behalf.
@StructInit
struct Book {
var id: Int
var title: String
var subtitle: String
var description: String
var author: String
}
By using the @StructInit macro the sample code above is equivalent to the following code:
struct Book {
var id: Int
var title: String
var subtitle: String
var description: String
var author: String
init(id: Int,
title: String,
subtitle: String,
description: String,
author: String) {
self.id = id
self.title = title
self.subtitle = subtitle
self.description = description
self.author = author
}
}
Now let’s see how to implement this Swift macro through code.
Create a New Project
In order to create Swift Macros instead of creating a project you have to create a new package. You can find the new macro template appearing in the package-choose window. Name the template whatever you like, here I named it struct_initial_macro .
Name Your Macro
Since you may use the macro for every situation It is prudent to choose a nice name for your macro. Here I named my macro StructInit. This name is very intuitive, and it can be seen at a glance that this macro is used to initialize a structure.
After naming your macro, you may need to declare your macro right in the package. Open file struct_initial_macro.swift (It is my file’s name, the file you need to open is your_package_name.swift) and update the code there:
@attached(member, names: named(init))
public macro StructInit() = #externalMacro(module: "struct_initial_macroMacros", type: "StructInitMacro")
Noted that the initializer is the member of any structure if you want to initialize it explicitly, so we need to declare an attached member macro by using the @attached(member) attribute. Because I plan to name my macro StructInit, I declare a StructInit() macro here. Note that parentheses need to be added when declaring the macro. The second sentence means the implementation of the expansion that our macro actually performs will be defined inside StructInitMacro type in the struct_initial_macroMacros module.
Implementation of Macro
After naming and declaring your macro, we now need to declare the method. Open struct_initial_macroMacros.swift file, add a public structure called StructInitMacro which is ostensibly the same type name which defined in StructInit() before. Since we declared an attached member macro so here we need to make structure StructInitMacro conform to the MemberMacro protocol:
public struct StructInitMacro: MemberMacro {
public static func expansion(
of node: AttributeSyntax,
providingMembersOf declaration: some DeclGroupSyntax,
in context: some MacroExpansionContext
) throws -> [SwiftSyntax.DeclSyntax] {
/// Code will be added here later.
}
Noted that in struct_initial_macroPlugin you need to add your macro to the providingMacros so that you can make StructInitMacro visible to the compiler:
@main
struct struct_initial_macroPlugin: CompilerPlugin {
let providingMacros: [Macro.Type] = [
StructInitMacro.self,
]
}
Back to expension(:) function defined before. The expansion function takes the node attribute with which we apply the macro to a declaration, as well as the declaration that the macro is being applied to. In our case, this will be the any Structure declaration. The macro then returns the list of all the new members it wants to add to that declaration.
We want this macro to be used only on the keyword struct, so we start by casting declaration to an struct declaration, inside your expansion(:)method, add the following code to check the struct declaration:
guard let structDecl = declaration.as(StructDeclSyntax.self) else {
throw StructInitError.onlyApplicableToStruct
}
The StructInitError is used to emit an error when the @StructInit is not attached to a type that is not a struct and the definition of StructInitError shows below:
enum StructInitError: CustomStringConvertible, Error {
case onlyApplicableToStruct
var description: String {
switch self {
case .onlyApplicableToStruct: return "@StructInit can only be applied to a structure"
}
}
}
Next, we need to get all the elements that any structure declares. To figure out how to do that, we can inspect the syntactic structure of that structure in the SwiftSyntax tree.
Similar to the WWDC video, we force the expansion method return empty list first and then set a breakpoint in that line code:
public struct StructInitMacro: MemberMacro {
public static func expansion(
of node: AttributeSyntax,
providingMembersOf declaration: some DeclGroupSyntax,
in context: some MacroExpansionContext
) throws -> [SwiftSyntax.DeclSyntax] {
/// Code will be added here later.
guard let structDecl = declaration.as(StructDeclSyntax.self) else {
throw StructInitError.onlyApplicableToStruct
}
return [] /// <--- Set a breakpoint here.
}
Set Test Data
Before we debug we need to set the test data in struct_initial_macroTests.swift file. For better coding and debugging, we can first set the test data to the full lines of code that we want the macro to expand:
final class struct_initial_macroTests: XCTestCase {
func testMacro() {
assertMacroExpansion(
"""
@StructInit
struct Book {
var id: Int
var title: String
var subtitle: String
var description: String
var author: String
init(id: Int, title: String, subtitle: String, description: String, author: String) {
self.id = id
self.title = title
self.subtitle = subtitle
self.description = description
self.author = author
}
}
""",
expandedSource:
"""
struct Book {
var id: Int
var title: String
var subtitle: String
var description: String
var author: String
init(id: Int, title: String, subtitle: String, description: String, author: String) {
self.id = id
self.title = title
self.subtitle = subtitle
self.description = description
self.author = author
}
}
""",
macros: testMacros
)
}
}
Debugging
Now run the test cases to hit our breakpoint. After running we now have the debugger paused inside the macro’s implementation and structDecl is the Book structure. We can print it in the debugger by typing po structDecl inside the Xcode console:
po structDecl
The output contains a lot of nodes of the syntax tree representing the struct elements which shows below.
StructDeclSyntax
├─attributes: AttributeListSyntax
│ ╰─[0]: AttributeSyntax
│ ├─atSignToken: atSign
│ ╰─attributeName: SimpleTypeIdentifierSyntax
│ ╰─name: identifier("StructInit")
├─structKeyword: keyword(SwiftSyntax.Keyword.struct)
├─identifier: identifier("Book")
╰─memberBlock: MemberDeclBlockSyntax
├─leftBrace: leftBrace
├─members: MemberDeclListSyntax
│ ├─[0]: MemberDeclListItemSyntax
│ │ ╰─decl: VariableDeclSyntax
│ │ ├─bindingKeyword: keyword(SwiftSyntax.Keyword.var)
│ │ ╰─bindings: PatternBindingListSyntax
│ │ ╰─[0]: PatternBindingSyntax
│ │ ├─pattern: IdentifierPatternSyntax
│ │ │ ╰─identifier: identifier("id")
│ │ ╰─typeAnnotation: TypeAnnotationSyntax
│ │ ├─colon: colon
│ │ ╰─type: SimpleTypeIdentifierSyntax
│ │ ╰─name: identifier("Int")
│ ├─[1]: MemberDeclListItemSyntax
│ │ ╰─decl: VariableDeclSyntax
│ │ ├─bindingKeyword: keyword(SwiftSyntax.Keyword.var)
│ │ ╰─bindings: PatternBindingListSyntax
│ │ ╰─[0]: PatternBindingSyntax
│ │ ├─pattern: IdentifierPatternSyntax
│ │ │ ╰─identifier: identifier("title")
│ │ ╰─typeAnnotation: TypeAnnotationSyntax
│ │ ├─colon: colon
│ │ ╰─type: SimpleTypeIdentifierSyntax
│ │ ╰─name: identifier("String")
│ ├─[2]: MemberDeclListItemSyntax
│ │ ╰─decl: VariableDeclSyntax
│ │ ├─bindingKeyword: keyword(SwiftSyntax.Keyword.var)
│ │ ╰─bindings: PatternBindingListSyntax
│ │ ╰─[0]: PatternBindingSyntax
│ │ ├─pattern: IdentifierPatternSyntax
│ │ │ ╰─identifier: identifier("subtitle")
│ │ ╰─typeAnnotation: TypeAnnotationSyntax
│ │ ├─colon: colon
│ │ ╰─type: SimpleTypeIdentifierSyntax
│ │ ╰─name: identifier("String")
│ ├─[3]: MemberDeclListItemSyntax
│ │ ╰─decl: VariableDeclSyntax
│ │ ├─bindingKeyword: keyword(SwiftSyntax.Keyword.var)
│ │ ╰─bindings: PatternBindingListSyntax
│ │ ╰─[0]: PatternBindingSyntax
│ │ ├─pattern: IdentifierPatternSyntax
│ │ │ ╰─identifier: identifier("description")
│ │ ╰─typeAnnotation: TypeAnnotationSyntax
│ │ ├─colon: colon
│ │ ╰─type: SimpleTypeIdentifierSyntax
│ │ ╰─name: identifier("String")
│ ├─[4]: MemberDeclListItemSyntax
│ │ ╰─decl: VariableDeclSyntax
│ │ ├─bindingKeyword: keyword(SwiftSyntax.Keyword.var)
│ │ ╰─bindings: PatternBindingListSyntax
│ │ ╰─[0]: PatternBindingSyntax
│ │ ├─pattern: IdentifierPatternSyntax
│ │ │ ╰─identifier: identifier("author")
│ │ ╰─typeAnnotation: TypeAnnotationSyntax
│ │ ├─colon: colon
│ │ ╰─type: SimpleTypeIdentifierSyntax
│ │ ╰─name: identifier("String")
│ ╰─[5]: MemberDeclListItemSyntax
│ ╰─decl: InitializerDeclSyntax
│ ├─initKeyword: keyword(SwiftSyntax.Keyword.init)
│ ├─signature: FunctionSignatureSyntax
│ │ ╰─input: ParameterClauseSyntax
│ │ ├─leftParen: leftParen
│ │ ├─parameterList: FunctionParameterListSyntax
│ │ │ ├─[0]: FunctionParameterSyntax
│ │ │ │ ├─firstName: identifier("id")
│ │ │ │ ├─colon: colon
│ │ │ │ ├─type: SimpleTypeIdentifierSyntax
│ │ │ │ │ ╰─name: identifier("Int")
│ │ │ │ ╰─trailingComma: comma
│ │ │ ├─[1]: FunctionParameterSyntax
│ │ │ │ ├─firstName: identifier("title")
│ │ │ │ ├─colon: colon
│ │ │ │ ├─type: SimpleTypeIdentifierSyntax
│ │ │ │ │ ╰─name: identifier("String")
│ │ │ │ ╰─trailingComma: comma
│ │ │ ├─[2]: FunctionParameterSyntax
│ │ │ │ ├─firstName: identifier("subtitle")
│ │ │ │ ├─colon: colon
│ │ │ │ ├─type: SimpleTypeIdentifierSyntax
│ │ │ │ │ ╰─name: identifier("String")
│ │ │ │ ╰─trailingComma: comma
│ │ │ ├─[3]: FunctionParameterSyntax
│ │ │ │ ├─firstName: identifier("description")
│ │ │ │ ├─colon: colon
│ │ │ │ ├─type: SimpleTypeIdentifierSyntax
│ │ │ │ │ ╰─name: identifier("String")
│ │ │ │ ╰─trailingComma: comma
│ │ │ ╰─[4]: FunctionParameterSyntax
│ │ │ ├─firstName: identifier("author")
│ │ │ ├─colon: colon
│ │ │ ╰─type: SimpleTypeIdentifierSyntax
│ │ │ ╰─name: identifier("String")
│ │ ╰─rightParen: rightParen
│ ╰─body: CodeBlockSyntax
│ ├─leftBrace: leftBrace
│ ├─statements: CodeBlockItemListSyntax
│ │ ├─[0]: CodeBlockItemSyntax
│ │ │ ╰─item: SequenceExprSyntax
│ │ │ ╰─elements: ExprListSyntax
│ │ │ ├─[0]: MemberAccessExprSyntax
│ │ │ │ ├─base: IdentifierExprSyntax
│ │ │ │ │ ╰─identifier: keyword(SwiftSyntax.Keyword.self)
│ │ │ │ ├─dot: period
│ │ │ │ ╰─name: identifier("id")
│ │ │ ├─[1]: AssignmentExprSyntax
│ │ │ │ ╰─assignToken: equal
│ │ │ ╰─[2]: IdentifierExprSyntax
│ │ │ ╰─identifier: identifier("id")
│ │ ├─[1]: CodeBlockItemSyntax
│ │ │ ╰─item: SequenceExprSyntax
│ │ │ ╰─elements: ExprListSyntax
│ │ │ ├─[0]: MemberAccessExprSyntax
│ │ │ │ ├─base: IdentifierExprSyntax
│ │ │ │ │ ╰─identifier: keyword(SwiftSyntax.Keyword.self)
│ │ │ │ ├─dot: period
│ │ │ │ ╰─name: identifier("title")
│ │ │ ├─[1]: AssignmentExprSyntax
│ │ │ │ ╰─assignToken: equal
│ │ │ ╰─[2]: IdentifierExprSyntax
│ │ │ ╰─identifier: identifier("title")
│ │ ├─[2]: CodeBlockItemSyntax
│ │ │ ╰─item: SequenceExprSyntax
│ │ │ ╰─elements: ExprListSyntax
│ │ │ ├─[0]: MemberAccessExprSyntax
│ │ │ │ ├─base: IdentifierExprSyntax
│ │ │ │ │ ╰─identifier: keyword(SwiftSyntax.Keyword.self)
│ │ │ │ ├─dot: period
│ │ │ │ ╰─name: identifier("subtitle")
│ │ │ ├─[1]: AssignmentExprSyntax
│ │ │ │ ╰─assignToken: equal
│ │ │ ╰─[2]: IdentifierExprSyntax
│ │ │ ╰─identifier: identifier("subtitle")
│ │ ├─[3]: CodeBlockItemSyntax
│ │ │ ╰─item: SequenceExprSyntax
│ │ │ ╰─elements: ExprListSyntax
│ │ │ ├─[0]: MemberAccessExprSyntax
│ │ │ │ ├─base: IdentifierExprSyntax
│ │ │ │ │ ╰─identifier: keyword(SwiftSyntax.Keyword.self)
│ │ │ │ ├─dot: period
│ │ │ │ ╰─name: identifier("description")
│ │ │ ├─[1]: AssignmentExprSyntax
│ │ │ │ ╰─assignToken: equal
│ │ │ ╰─[2]: IdentifierExprSyntax
│ │ │ ╰─identifier: identifier("description")
│ │ ╰─[4]: CodeBlockItemSyntax
│ │ ╰─item: SequenceExprSyntax
│ │ ╰─elements: ExprListSyntax
│ │ ├─[0]: MemberAccessExprSyntax
│ │ │ ├─base: IdentifierExprSyntax
│ │ │ │ ╰─identifier: keyword(SwiftSyntax.Keyword.self)
│ │ │ ├─dot: period
│ │ │ ╰─name: identifier("author")
│ │ ├─[1]: AssignmentExprSyntax
│ │ │ ╰─assignToken: equal
│ │ ╰─[2]: IdentifierExprSyntax
│ │ ╰─identifier: identifier("author")
│ ╰─rightBrace: rightBrace
╰─rightBrace: rightBrace
Retrieve the Variables
To retrieve the variables of the Book struct, we need to follow the structure that is outlined to us in the syntax tree above. The member variable names and types of the Book structure belong to the node members, and members are child nodes of memberBlock. The internal content of members is similar to a list, which is used to store all the variables defined in the Book structure. So to access the members, we start with structDecl.memberBlock.members.
memberBlock: MemberDeclBlockSyntax
├─leftBrace: leftBrace
├─members: MemberDeclListSyntax
│ ├─[0]: MemberDeclListItemSyntax
│ │ ╰─decl: VariableDeclSyntax
│ │ ├─bindingKeyword: keyword(SwiftSyntax.Keyword.var)
│ │ ╰─bindings: PatternBindingListSyntax
│ │ ╰─[0]: PatternBindingSyntax
│ │ ├─pattern: IdentifierPatternSyntax
│ │ │ ╰─identifier: identifier("id")// <---- id defined here
│ │ ╰─typeAnnotation: TypeAnnotationSyntax
│ │ ├─colon: colon
│ │ ╰─type: SimpleTypeIdentifierSyntax
│ │ ╰─name: identifier("Int")// <---- type of id defined here
│ ├─[1]: MemberDeclListItemSyntax
│ │ ╰─decl: VariableDeclSyntax
│ │ ├─bindingKeyword: keyword(SwiftSyntax.Keyword.var)
│ │ ╰─bindings: PatternBindingListSyntax
│ │ ╰─[0]: PatternBindingSyntax
│ │ ├─pattern: IdentifierPatternSyntax
│ │ │ ╰─identifier: identifier("title") // <---- title defined here
│ │ ╰─typeAnnotation: TypeAnnotationSyntax
│ │ ├─colon: colon
│ │ ╰─type: SimpleTypeIdentifierSyntax
│ │ ╰─name: identifier("String") // <---- type of title defined here
...
We are interested in the declarations, in particular those declarations that actually declare variables. Here I will use .compactMap() to get a list of all the member declarations that are variables we define.
Noted that the variables are declared as VariableDeclSyntax according to the syntax tree, so we will use members.compactMap { $0.decl.as(VariableDeclSyntax.self) } to retrieve all of the members that has a VariableDeclSyntax node inside them.
let members = structDecl.memberBlock.members
let variableDecl = members.compactMap { $0.decl.as(VariableDeclSyntax.self) }
Next, we need to dig out the name and type of all the variables that we define. Let’s just thrash out one member:
├─members: MemberDeclListSyntax
│ ├─[0]: MemberDeclListItemSyntax
│ │ ╰─decl: VariableDeclSyntax
│ │ ├─bindingKeyword: keyword(SwiftSyntax.Keyword.var)
│ │ ╰─bindings: PatternBindingListSyntax
│ │ ╰─[0]: PatternBindingSyntax
│ │ ├─pattern: IdentifierPatternSyntax
│ │ │ ╰─identifier: identifier("id") // <---- id defined here
│ │ ╰─typeAnnotation: TypeAnnotationSyntax
│ │ ├─colon: colon
│ │ ╰─type: SimpleTypeIdentifierSyntax
│ │ ╰─name: identifier("Int") // <---- type of id defined here
...
For variable id, both the pattern and type are what we care about. So we can use variableDecl.compactMap { $0.bindings.first?.pattern } to fetch all the patterns or the variable’s name and use variableDecl.compactMap { $0.bindings.first?.typeAnnotation?.type } to get all the type of each variable. Now the code inside the expansion() method shows below:
public static func expansion(
of node: AttributeSyntax,
providingMembersOf declaration: some DeclGroupSyntax,
in context: some MacroExpansionContext
) throws -> [SwiftSyntax.DeclSyntax] {
guard let structDecl = declaration.as(StructDeclSyntax.self) else {
throw StructInitError.onlyApplicableToStruct
}
let members = structDecl.memberBlock.members
let variableDecl = members.compactMap { $0.decl.as(VariableDeclSyntax.self) }
let variablesName = variableDecl.compactMap { $0.bindings.first?.pattern }
let variablesType = variableDecl.compactMap { $0.bindings.first?.typeAnnotation?.type }
return []
}
Make Initializer Work
Now variablesName contains all the variables’ name while variablesType embodies all the variables’ type. The last thing to do is to generate the Book struct Initializer code. We start by constructing an InitializerDeclSyntax. Since the init needs both parameters input and expression inside the init code block, we choose the method InitializerDeclSyntax(_ header:bodyBuilder:) to help us write our code.
Inside the _ headr we need to declare the ‘init’ keyword and all the parameters which in this Book struct case, is the following format:
init(id: Int, title: String, subtitle: String, description: String, author: String)
In order to generate the code above, I create a new method called generateInitialCode which shows below:
public static func generateInitialCode(variablesName: [PatternSyntax],
variablesType: [TypeSyntax]) -> PartialSyntaxNodeString {
var initialCode: String = "init("
for (name, type) in zip(variablesName, variablesType) {
initialCode += "(name): (type), "
}
initialCode = String(initialCode.dropLast(2))
initialCode += ")"
return PartialSyntaxNodeString(stringLiteral: initialCode)
}
generateInitialCode method returns a PartialSyntaxNodeStringvariable which can be the input parameter for _ header inside InitializerDeclSyntax:
let initializer = try InitializerDeclSyntax(StructInitMacro.generateInitialCode(variablesName: variablesName, variablesType:variablesType)) {
}
Inside the InitializerDeclSyntax’s body, we just need a single expression to assign values to the member variables of the Book structure, here we use for-loop as well as ExprSyntax() to achieve that:
let initializer = try InitializerDeclSyntax(StructInitMacro.generateInitialCode(variablesName: variablesName, variablesType:variablesType)) {
for name in variablesName {
ExprSyntax("self.(name) = (name)")
}
}
Finally, make sure that the expansion() method returns the initializer, so change the return [] to the following code:
return [DeclSyntax(initializer)]
All done. Try some test examples to see what will happen when you attach @StructInit to a structure.
Source Code
You can find the source code on GitHub.
If you think this article is helpful, you can support me by downloading my first Mac App which named FilerApp on the Mac App Store. FilerApp is a Finder extension for your Mac which enables you to easily create files in supported formats anywhere on the system. It is free and useful for many people. Hope you like it.
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