SwiftFormat is a code library and command-line tool for reformatting swift code.
It applies a set of rules to the formatting and space around the code, leaving the behavior intact.
Many programmers have a preferred style for formatting their code, and others seem entirely blind to the existing formatting conventions of a project (to the enragement of their colleagues).
When collaborating on a project, it can be helpful to agree on a common coding style, but enforcing that manually is tedious and error-prone, and can lead to bad feeling if some participants take it more seriously than others.
Having a tool to automatically enforce a common style eliminates those issues, and lets you focus on the operation of the code, not its presentation.
That depends. There are four ways you can use SwiftFormat:
- As a command-line tool that you run manually, or as part of some other toolchain
- As a Source Editor Extension that you can invoke via the Editor > SwiftFormat menu within Xcode
- As a build phase in your Xcode project, so that it runs every time you press Cmd-R or Cmd-B, or
- As a Git pre-commit hook, so that it runs on any files you've changed before you check them in
Installation:
You can install the swiftformat
command-line tool using Homebrew. Assuming you already have Homebrew installed, just type:
> brew update
> brew install swiftformat
Alternatively, you can install the tool using Mint as follows:
> mint install nicklockwood/SwiftFormat
And then run it using:
> mint run swiftformat
If you are installing SwiftFormat into your project directory, you can use CocoaPods to automatically install the swiftformat binary along with your other pods - see the Xcode build phase instructions below for details.
If you would prefer not to use a package manager, you can build the command-line app manually:
-
open
SwiftFormat.xcodeproj
and build theSwiftFormat (Application)
scheme. -
Drag the
swiftformat
binary into/usr/local/bin/
(this is a hidden folder, but you can use the Finder'sGo > Go to Folder...
menu to open it). -
Open
~/.bash_profile
in your favorite text editor (this is a hidden file, but you can typeopen ~/.bash_profile
in the terminal to open it). -
Add the following line to the file:
alias swiftformat="/usr/local/bin/swiftformat --indent 4"
(you can omit the--indent 4
, or replace it with something else. Runswiftformat --help
to see the available options). -
Save the
.bash_profile
file and run the commandsource ~/.bash_profile
for the changes to take effect.
Usage:
If you followed the installation instructions above, you can now just type
> swiftformat .
(that's a space and then a period after the command) in the terminal to format any Swift files in the current directory.
WARNING: swiftformat .
will overwrite any Swift files it finds in the current directory, and any subfolders therein. If you run it from your home directory, it will probably reformat every Swift file on your hard drive.
To use it safely, do the following:
-
Choose a file or directory that you want to apply the changes to.
-
Make sure that you have committed all your changes to that code safely in git (or whatever source control system you use).
-
(Optional) In Terminal, type
swiftformat --inferoptions "/path/to/your/code/"
. This will suggest a set of formatting options to use that match your existing project style (but you are free to ignore these and use the defaults, or your own settings if you prefer).The path can point to either a single Swift file or a directory of files. It can be either be absolute, or relative to the current directory. The
""
quotes around the path are optional, but if the path contains spaces then you either need to use quotes, or escape each space with\
. You may include multiple paths separated by spaces. -
In Terminal, type
swiftformat "/path/to/your/code/"
. The same rules apply as above with respect to paths, and multiple space-delimited paths are allowed.If you used
--inferoptions
to generate a suggested set of options in step 3, you should copy and paste them into the command, either before or after the path(s) to your source files.If you have created a configuration file, you can specify its path using `--config "/path/to/your/config-file/".
-
Press enter to begin formatting. Once the formatting is complete, use your source control system to check the changes, and verify that no undesirable changes have been introduced. If they have, revert the changes, tweak the options and try again.
-
(Optional) commit the changes.
Following these instructions should ensure that you avoid catastrophic data loss, but in the unlikely event that it wipes your hard drive, please note that I accept no responsibility.
If you prefer, you can also use unix pipes to include swiftformat as part of a command chain. For example, this is an alternative way to format a file:
> cat /path/to/file.swift | swiftformat --output /path/to/file.swift
Omitting the --output /path/to/file.swift
will print the formatted file to stdout
.
Installation:
You'll find the latest version of the SwiftFormat for Xcode application inside the EditorExtension folder included in the SwiftFormat repository. Drag it into your Applications
folder, then double-click to launch it, and follow the on-screen instructions.
NOTE: The Extension requires Xcode 8 and macOS 10.12 Sierra or higher.
Usage:
In Xcode, you'll find a SwiftFormat option under the Editor menu. You can use this to format either the current selection or the whole file.
You can configure the formatting rules and options used by the Xcode source editor extension using the host application. There is currently no way to override these per-project, however you can import and export different configurations using the File menu. You will need to do this again each time you switch project.
The format of the configuration file is described in the Config section below.
Note: SwiftFormat for Xcode cannot automatically detect changes to an imported configuration file. If you update the .swiftformat
file for your project, you will need to manually re-import that file into SwiftFormat for Xcode in order for the Xcode source editor extension to use the new configuration.
To set up SwiftFormat as an Xcode build phase, do the following:
-
Add the
swiftformat
binary to your project directory (this is better than referencing a locally installed copy because it means that project will still compile on machines that don't have theswiftformat
command-line tool installed). You can install the binary manually, or via CocoaPods, by adding the following line to your Podfile then runningpod install
:pod 'SwiftFormat/CLI'
NOTE: This will only install the pre-built command-line app, not the source code for the SwiftFormat framework.
-
In the Build Phases section of your project target, add a new Run Script phase before the Compile Sources step. The script should be
"${SRCROOT}/path/to/swiftformat" "${SRCROOT}/path/to/your/swift/code/"
Both paths should be relative to the directory containing your Xcode project. If you are installing SwiftFormat as a Cocoapod, the swiftformat path will be
"${PODS_ROOT}/SwiftFormat/CommandLineTool/swiftformat"
NOTE: Adding this script will slightly increase your build time, and will make changes to your source files as you work on them, which can have annoying side-effects such as clearing the undo buffer. You may wish to add the script to your test target rather than your main target, so that it is invoked only when you run the unit tests, and not every time you build the app.
Alternatively, you can skip installation of the SwiftFormat pod and configure Xcode to use the locally installed swiftformat command-line tool instead by putting the following in your Run Script build phase:
if which swiftformat >/dev/null; then
swiftformat .
else
echo "warning: SwiftFormat not installed, download from https://github.com/nicklockwood/SwiftFormat"
fi
This is not recommended for shared projects however, as different team members using different versions of SwiftFormat may result in noise in the commits as code gets reformatted inconsistently.
If you prefer to use Microsoft's VSCode editor for writing Swift, Valentin Knabel has created a VSCode plugin for SwiftFormat.
-
Follow the instructions for installing the swiftformat command-line tool.
-
Edit or create a
.git/hooks/pre-commit
file in your project folder. The .git folder is hidden but should already exist if you are using Git with your project, so open in with the terminal, or the Finder'sGo > Go to Folder...
menu. -
Add the following line in the pre-commit file (unlike the Xcode build phase approach, this uses your locally installed version of SwiftFormat, not a separate copy in your project repository)
#!/bin/bash git diff --diff-filter=d --staged --name-only | grep -e '\(.*\).swift$' | while read line; do swiftformat "${line}"; git add "$line"; done
-
enable the hook by typing
chmod +x .git/hooks/pre-commit
in the terminal
The pre-commit hook will now run whenever you run git commit
. Running git commit --no-verify
will skip the pre-commit hook.
NOTE: If you are using Git via a GUI client such as Tower, additional steps may be needed.
NOTE (2): Unlike the Xcode build phase approach, git pre-commit hook won't be checked in to source control, and there's no way to guarantee that all users of the project are using the same version of SwiftFormat. For a collaborative project, you might want to consider a post-commit hook instead, which would run on your continuous integration server.
To setup SwiftFormat to be used by your continuous integration system using Danger, do the following:
-
Follow the
instructions
to setup Danger. -
Add the
danger-swiftformat
plugin to yourGemfile
. -
Add the following to your
Dangerfile
:swiftformat.binary_path = "/path/to/swiftformat" # optional swiftformat.additional_args = "--indent tab --self insert" # optional swiftformat.check_format(fail_on_error: true)
NOTE: It is recommended to add the
swiftformat
binary to your project directory to ensure the same version is used each time (see the Xcode build phase instructions above).
SwiftFormat first converts the source file into tokens, then iteratively applies a set of rules to the tokens to adjust the formatting. The tokens are then converted back into text.
SwiftFormat's configuration is split between rules and options. Rules are functions in the SwiftFormat library that apply changes to the code. Options are settings that control the behavior of the rules.
The options available in SwiftFormat can be displayed using the --help
command-line argument. The default value for each option is indicated in the help text.
Rules are configured by adding --[rulename] [value]
to your command-line arguments, or by creating a config file as explained below.
A given option may affect multiple rules. See the Rules section below for details about which options affect which rule.
The rules used by SwiftFormat can be displayed using the --rules
command-line argument. Rules can be either enabled or disabled. Most are enabled by default. Disabled rules are marked with "(disabled)" when using the --rules
argument.
You can disable rules individually using --disable
followed by a list of one or more comma-delimited rule names, or enable additional rules using --enable
followed by the names.
To see exactly which rules were applied to a given file, you can use the --verbose
command-line option to force SwiftFormat to print a more detailed log as it applies the formatting. NOTE: running in verbose mode is slower than the default mode.
You can also enable/disable rules for specific files or code ranges by using swiftformat:
directives in comments inside your Swift files. To temporarily disable one or more rules inside a source file, use:
// swiftformat:disable <rule1> [<rule2> [rule<3> ...]]
To enable the rule(s) again, use:
// swiftformat:enable <rule1> [<rule2> [rule<3> ...]]
To disable all rules use:
// swiftformat:disable all
And to enable them all again, use:
// swiftformat:enable all
To temporarily prevent one or more rules being applied to just the next line, use:
// swiftformat:disable:next <rule1> [<rule2> [rule<3> ...]]
let foo = bar // rule(s) will be disabled for this line
let bar = baz // rule(s) will be re-enabled for this line
There is no need to manually re-enable a rule after using the next
directive.
Note: The swiftformat:enable
directives only serves to counter a previous swiftformat:disable
directive in the same file. It is not possible to use swiftformat:enable
to enable a rule that was not already enabled when formatting started.
Here are all the rules that SwiftFormat currently applies, and the effects that they have:
blankLinesAtEndOfScope - removes trailing blank lines from inside braces, brackets, parens or chevrons:
func foo() {
// foo
-
}
func foo() {
// foo
}
array = [
foo,
bar,
baz,
-
]
array = [
foo,
bar,
baz,
]
blankLinesAtStartOfScope - removes leading blank lines from inside braces, brackets, parens or chevrons:
func foo() {
-
// foo
}
func foo() {
// foo
}
array = [
-
foo,
bar,
baz,
]
array = [
foo,
bar,
baz,
]
blankLinesBetweenScopes - adds a blank line before each class, struct, enum, extension, protocol or function:
func foo() {
// foo
}
func bar() {
// bar
}
var baz: Bool
var quux: Int
func foo() {
// foo
}
+
func bar() {
// bar
}
+
var baz: Bool
var quux: Int
blankLinesAroundMark - adds a blank line before and after each MARK:
comment:
func foo() {
// foo
}
// MARK: bar
func bar() {
// bar
}
func foo() {
// foo
}
+
// MARK: bar
+
func bar() {
// bar
}
braces - implements K&R (default, --allman false
) or Allman-style indentation (--allman true
):
- if x
- {
// foo
}
- else
- {
// bar
}
+ if x {
// foo
}
+ else {
// bar
}
consecutiveBlankLines - reduces multiple sequential blank lines to a single blank line:
func foo() {
let x = "bar"
-
print(x)
}
func foo() {
let x = "bar"
print(x)
}
consecutiveSpaces - reduces a sequence of spaces to a single space:
- let foo = 5
+ let foo = 5
duplicateImports - removes duplicate import statements:
import Foo
import Bar
- import Foo
import B
#if os(iOS)
import A
- import B
#endif
elseOnSameLine - controls whether an else
, catch
or while
keyword after a }
appears on the same line, depending on the --elseposition
option (same-line
(default) or next-line
):
if x {
// foo
- }
- else {
// bar
}
if x {
// foo
+ } else {
// bar
}
do {
// try foo
- }
- catch {
// bar
}
do {
// try foo
+ } catch {
// bar
}
repeat {
// foo
- }
- while {
// bar
}
repeat {
// foo
+ } while {
// bar
}
emptyBraces - removes all white space between otherwise empty braces:
- func foo() {
-
- }
+ func foo() {}
fileHeader - allows the replacement or removal of Xcode's automated comment header blocks. By default, no action is taken, but passing one of the following arguments to the command-line will activate its function.
-
--header strip
: removes all automated comment header blocks -
--header "Copyright Text {year}"
: replaces all automated comment header blocks with the text specifiedSee the File Headers section below for more information.
hoistPatternLet - moves let
or var
bindings inside patterns to the start of the expression, or vice-versa, depending on the --patternlet
option (hoist
or inline
).
- (let foo, let bar) = baz()
+ let (foo, bar) = baz()
- if case .foo(let bar, let baz) = quux {
// inner foo
}
+ if case let .foo(bar, baz) = quux {
// inner foo
}
indent - adjusts leading whitespace based on scope and line wrapping. Uses either tabs (--indent tab
) or spaces (--indent 4
). By default, case
statements will be indented level with their containing switch
, but this can be controlled with the --indentcase
options. Also affects comments and #if ...
statements, depending on the configuration of the --comments
option (indent
or ignore
) and the --ifdef
option (indent
(default), noindent
or ignore
):
if x {
- // foo
} else {
- // bar
- }
if x {
+ // foo
} else {
+ // bar
+ }
let array = [
foo,
- bar,
- baz
- ]
let array = [
foo,
+ bar,
+ baz
+ ]
switch foo {
- case bar: break
- case baz: break
}
switch foo {
+ case bar: break
+ case baz: break
}
isEmpty - replaces count == 0
checks with isEmpty
, which is preferred for performance reasons (disabled by default because SwiftFormat is not able to check that the isEmpty property is actually available in all cases):
- if foo.count == 0 {
+ if foo.isEmpty {
- if foo.count > 0 {
+ if !foo.isEmpty {
- if foo?.count == 0 {
+ if foo?.isEmpty == true {
linebreakAtEndOfFile - ensures that the last line of the file is empty:
linebreaks - normalizes all linebreaks to use the same character, depending on the --linebreaks
option (cr
, crlf
or lf
).
numberFormatting - handles case and grouping of number literals, depending on the following options:
--hexliteralcase
and--exponentcase
(uppercase
(default) orlowercase
)--hexgrouping
,--binarygrouping
,--octalgrouping
(4,8
(default grouping,threshold),none
orignore
)--decimalgrouping
(3,6
(default grouping,threshold),none
orignore
)--fractiongrouping
and--exponentgrouping
(disabled
(default) orenabled
)
- let color = 0xFF77A5
+ let color = 0xff77a5
- let big = 123456.123
+ let big = 123_456.123
ranges - controls the spacing around range operators. By default, a space is added, but this can be configured using the --ranges
option (spaced
(default) or nospace
).
redundantBackticks - removes unnecessary escaping of identifiers using backticks, e.g. in cases where the escaped word is not a keyword, or is not ambiguous in that context:
- let `infix` = bar
+ let infix = bar
- func foo(with `default`: Int) {}
+ func foo(with default: Int) {}
redundantGet - removes unnecessary get { }
clauses from inside read-only computed properties:
var foo: Int {
- get {
- return 5
- }
}
var foo: Int {
+ return 5
}
redundantLet - removes redundant let
or var
from ignored variables in bindings (which is a warning in Xcode):
- let _ = resultIgnorableFunction()
+ _ = resultIgnorableFunction()
- if case (let foo, let _) = bar {}
+ if case (let foo, _) = bar {}
- if case .foo(var /* unused */ _) = bar {}
+ if case .foo( /* unused */ _) = bar {}
redundantLetError - removes redundant let error
from catch
statements, where it is declared implicitly:
- do { ... } catch let error { log(error) }
+ do { ... } catch { log(error) }
redundantNilInit - removes unnecessary nil initialization of Optional vars (which are nil by default anyway):
- var foo: Int? = nil
+ var foo: Int?
// doesn't apply to `let` properties
let foo: Int? = nil
// doesn't affect non-nil initialization
var foo: Int? = 0
redundantParens - removes unnecessary parens from expressions and branch conditions:
- if (foo == true) {}
+ if foo == true {}
- while (i < bar.count) {}
+ while i < bar.count {}
- queue.async() { ... }
+ queue.async { ... }
- let foo: Int = ({ ... })()
+ let foo: Int = { ... }()
redundantPattern - removes redundant pattern matching arguments for ignored variables:
- if case .foo(_, _) = bar {}
+ if case .foo = bar {}
- let (_, _) = bar
+ let _ = bar
redundantRawValues - removes raw string values from enum cases when they match the case name:
enum Foo: String {
- case bar = "bar"
case baz = "quux"
}
enum Foo: String {
+ case bar
case baz = "quux"
}
redundantReturn - removes unnecessary return
keyword from single-line closures:
- array.filter { return $0.foo == bar }
+ array.filter { $0.foo == bar }
redundantSelf - removes or inserts self
prefix from class and instance member references, depending on the --self
option:
func foobar(foo: Int, bar: Int) {
self.foo = foo
self.bar = bar
- self.baz = 42
}
func foobar(foo: Int, bar: Int) {
self.foo = foo
self.bar = bar
+ baz = 42
}
There is also an option to always use explicit self
but only inside init
, by using --self init-only
:
init(foo: Int, bar: Int) {
self.foo = foo
self.bar = bar
- baz = 42
}
init(foo: Int, bar: Int) {
self.foo = foo
self.bar = bar
+ self.baz = 42
}
redundantVoidReturnType - removes unnecessary Void
return type from function declarations:
- func foo() -> Void {
// returns nothing
}
+ func foo() {
// returns nothing
}
redundantInit - removes unnecessary init
when instantiating Types:
- String.init("text")
+ String("text")
semicolons - removes semicolons at the end of lines. Also replaces inline semicolons with a linebreak, depending on the --semicolons
option (inline
(default) or never
).
- let foo = 5;
+ let foo = 5
- let foo = 5; let bar = 6
+ let foo = 5
+ let bar = 6
// semicolon is not removed if it would affect the behavior of the code
return;
goto(fail)
sortedImports - rearranges import statements so that they are sorted. Use the --importgrouping
option to configure how to group @testable import
s (alphabetically (default), testable-top or testable-bottom).
- import Foo
- import Bar
+ import Bar
+ import Foo
- import B
- import A
- #if os(iOS)
- import Foo-iOS
- import Bar-iOS
- #endif
+ import A
+ import B
+ #if os(iOS)
+ import Bar-iOS
+ import Foo-iOS
+ #endif
spaceAroundBraces - contextually adds or removes space around { ... }
:
- foo.filter{ return true }.map{ $0 }
+ foo.filter { return true }.map { $0 }
- foo( {} )
+ foo({})
spaceAroundBrackets - contextually adjusts the space around [ ... ]
:
- foo as[String]
+ foo as [String]
- foo = bar [5]
+ foo = bar[5]
spaceAroundComments - adds space around /* ... */
comments and before //
comments, depending on the --comments
option (indent
(default) or ignore
).
- let a = 5// assignment
+ let a = 5 // assignment
- func foo() {/* no-op */}
+ func foo() { /* no-op */ }
spaceAroundGenerics - removes the space around < ... >
:
- Foo <Bar> ()
+ Foo<Bar>()
spaceAroundOperators - contextually adjusts the space around infix operators. Also adds or removes the space between an operator function declaration and its arguments, depending on the --operatorfunc
option (spaced
(default) or nospace
).
- foo . bar()
+ foo.bar()
- a+b+c
+ a + b + c
- func ==(lhs: Int, rhs: Int) -> Bool
+ func == (lhs: Int, rhs: Int) -> Bool
spaceAroundParens - contextually adjusts the space around ( ... )
:
- init (foo)
+ init(foo)
- switch(x){
+ switch (x) {
spaceInsideBraces - adds space inside { ... }
:
- foo.filter {return true}
+ foo.filter { return true }
spaceInsideBrackets - removes the space inside [ ... ]
:
- [ 1, 2, 3 ]
+ [1, 2, 3]
spaceInsideComments - adds a space inside /* ... */
comments and at the start of //
comments, depending on the --comments
option (indent
(default) or ignore
).
- let a = 5 //assignment
+ let a = 5 // assignment
- func foo() { /*no-op*/ }
+ func foo() { /* no-op */ }
spaceInsideGenerics - removes the space inside < ... >
:
- Foo< Bar, Baz >
+ Foo<Bar, Baz>
spaceInsideParens - removes the space inside ( ... )
:
- ( a, b )
+ (a, b)
specifiers - normalizes the order for access specifiers, and other property/function/class/etc. specifiers:
- lazy public weak private(set) var foo: UIView?
+ private(set) public lazy weak var foo: UIView?
- public override final func foo()
+ final override public func foo()
- convenience private init()
+ private convenience init()
strongOutlets - removes the weak
specifier from @IBOutlet
properties, as per Apple's recommendation:
- @IBOutlet weak var label: UILabel!
+ @IBOutlet var label: UILabel!
trailingClosures - converts the last closure argument in a function call to trailing closure syntax where possible (disabled by default because it can introduce ambiguity that prevents code from compiling):
- DispatchQueue.main.async(execute: {
// do stuff
- })
+ DispatchQueue.main.async {
// do stuff
+ }
NOTE: Occasionally, using trailing closure syntax makes a function call ambiguous, and the compiler can't understand it. Since SwiftFormat isn't able to detect this in all cases, the trailingClosures
rule is disabled by default, and must be manually enabled via the --enable trailingClosures
option.
trailingCommas - adds or removes trailing commas from the last item in an array or dictionary literal, depending on the --commas
option (always
(default) or inline
).
let array = [
foo,
bar,
- baz
]
let array = [
foo,
bar,
+ baz,
]
trailingSpace - removes the whitespace at the end of a line, depending on the --trimwhitespace
option (always
(default) or nonblank-lines
).
todos - ensures that TODO:
, MARK:
and FIXME:
comments include the trailing colon (else they're ignored by Xcode):
- /* TODO fix this properly */
+ /* TODO: fix this properly */
- // MARK - UIScrollViewDelegate
+ // MARK: - UIScrollViewDelegate
unusedArguments - marks unused arguments in functions and closures with _
to make it clear they aren't used. Use the --stripunusedargs
option to configure which argument types are affected (always
(default), closure-only
or unnamed-only
).
- func foo(bar: Int, baz: String) {
print("Hello \(baz)")
}
+ func foo(bar _: Int, baz: String) {
print("Hello \(baz)")
}
- func foo(_ bar: Int) {
// no-op
}
+ func foo(_: Int) {
// no-op
}
- request { response, data in
self.data += data
}
+ request { _, data in
self.data += data
}
void - standardizes the use of Void
vs an empty tuple ()
to represent empty argument lists and return values, depending on the --empty
option (void
(default) or tuple
).
- let foo: () -> (
+ let foo: () -> Void
- let bar: Void -> Void
+ let bar: () -> Void
- let baz: (Void) -> Void
+ let baz: () -> Void
- func quux() -> (Void)
+ func quux() -> Void
wrapArguments - wraps function arguments and collection literals depending on the --wraparguments
and --wrapcollections
options (beforefirst
, afterfirst
or preserve
) and the --closingparen
option (balanced
(default) or same-line
). E.g. for --wraparguments beforefirst
and --closingparen balanced
:
- func foo(bar: Int,
- baz: String) {
// foo function
}
+ func foo(
+ bar: Int,
+ baz: String
+ ) {
// foo function
}
Or for --wrapcollections beforefirst
:
- let foo = [bar,
baz,
- quuz]
+ let foo = [
+ bar,
baz,
+ quuz
]
andOperator - replaces the &&
operator with ,
inside if
, guard
and while
conditions:
- if true && true {
+ if true, true {
- guard true && true else {
+ guard true, true else {
- if functionReturnsBool() && true {
+ if functionReturnsBool(), true {
- if functionReturnsBool() && variable {
+ if functionReturnsBool(), variable {
Although it is possible to configure SwiftFormat directly by using the command-line options and rules detailed above, it is sometimes more convenient to create a configuration file, which can be added to your project and shared with other developers.
A SwiftFormat configuration file consists of one or more command-line options, split onto separate lines, e.g:
--allman true
--indent tabs
--disable elseOnSameLine,semicolons
While formatting, SwiftFormat will automatically check inside each subdirectory for the presence of a ".swiftformat" file and will apply any options that it finds there to the files in that directory.
This allows you to override certain rules or formatting options just for a particular directory of files. You can also specify excluded files relative to that directory using --exclude
, which may be more convenient than specifying them at the top-level:
--exclude Pods,Generated
The --exclude
option takes a comma-delimited list of file or directory paths to exclude from formatting. Excluded paths are relative to the config file containing the --exclude
command. The excluded paths can include wildcards, specified using Unix "Glob" syntax, as documented below.
Config files named ".swiftformat" will be processed automatically, however you can select an additional configuration file to use for formatting using the --config "path/to/config/file"
command-line argument. A configuration file selected using --config
does not need to be named ".swiftformat", and can be located outside of the project directory.
The config file format is designed to be human editable. You may include blank lines for readability, and can also add comments using a hash prefix (#), e.g.
# format options
--allman true
--indent tabs # tabs FTW!
# file options
--exclude Pods
# rules
--disable elseOnSameLine,semicolons
If you would prefer not to edit the configuration file by hand, you can use the SwiftFormat for Xcode app to edit the configuration and export a configuration file. Alternatively, you can use the swiftformat command-line-tool's --inferoptions
command to generate a config file from your existing project, like this:
> cd /path/to/project
> swiftformat --inferoptions . --output .swiftformat
When excluding files from formatting using the --exclude
option, you may wish to make use of wildcard paths (aka "Globs") to match all files that match a particular naming convention without having to manually list them all.
SwiftFormat's glob syntax is based on Ruby's implementation, which varies slightly from the Unix standard. The following patterns are supported:
-
*
- A single star matches zero or more characters in a filename, but not a/
. -
**
- A double star will match anything, including one or more/
. -
?
- A question mark will match any single character except/
. -
[abc]
- Matches any single character inside the brackets. -
[a-z]
- Matches a single character in the specified range in the brackets. -
{foo,bar}
- Matches any one of the comma-delimited strings inside the braces.
Examples:
-
foo.swift
- Matches the file "foo.swift" in the same directory as the config file. -
*.swift
- Matches any swift file in the same directory as the config file. -
foo/bar.swift
- Matches the file "bar.swift" in the directory "foo". -
**/foo.swift
- Matches any file named "foo.swift" in the project. -
**/*.swift
- Matches any swift file in the project. -
**/Generated
- Matches any folder calledGenerated
in the project. -
**/*_generated.swift
- Matches any Swift file with the suffix "_generated" in the project.
SwiftFormat is primarily designed as a formatter rather than a linter, i.e. it is designed to fix your code rather than tell you what's wrong with it. However, sometimes it can be useful to verify that code has been formatted in a context where it is not desirable to actually change it.
A typical example would be as part of a CI (Continuous Integration) process, where you may wish to have an automated script that checks committed code for style violations. While you could use a separate tool such as SwiftLint for this, it makes sense to be able to validate the formatting against the exact same rules as you are using to apply it.
In order to run SwiftFormat as a linter, you can use the --lint
command-line option:
> swiftformat --lint path/to/project
This works exactly the same way as when running in format mode, and all the same configuration options apply, however no files will be modified. SwiftFormat will simply format each file in memory and then compare the result against the input. If any formatting changes would have been applied, it will report an error.
The --lint
option is very similar to --dryrun
, except that --lint
will return a nonzero error code if any changes are detected, which is useful if you want it to fail a build step on your CI server.
By default, --lint
will only report the number of files that were changed, but you can use the additional --verbose
flag to display a detailed report about which specific rules were applied to which specific files.
There haven't been many questions yet, but here's what I'd like to think people are wondering:
Q. What versions of Swift are supported?
A. The framework compiles on Swift 3.x or 4.x and can format programs written in Swift 3.x or 4.x. Swift 2.x is no longer actively supported. If you are still using Swift 2.x, and find that SwiftFormat breaks your code, the best solution is probably to revert to an earlier SwiftFormat release, or enable only a small subset of rules.
Q. I don't like how SwiftFormat formatted my code
A. That's not a question (but see below).
Q. How can I modify the formatting rules?
A. Many configuration options are exposed in the command-line interface or .swiftformat configuration file. You can either set these manually, or use the
--inferoptions
argument to automatically generate the configuration from your existing project.
If there is a rule that you don't like, and which cannot be configured to your liking via the command-line options, you can disable the rule by using the
--disable
argument, followed by the name of the rule. You can display a list of all rules using the--rules
argument, and their behaviors are documented above this section in the README.
If you are using the Xcode source editor extension, rules and options can be configured using the SwiftFormat for Xcode host application. Unfortunately, due to limitation of the Extensions API, there is no way to configure these on a per-project basis.
If the options you want aren't exposed, and disabling the rule doesn't solve the problem, the rules are implemented as functions in the file
Rules.swift
, so you can modify them and build a new version of the command-line tool. If you think your changes might be generally useful, make a pull request.
Q. Why can't I set the indent width or choose between tabs/spaces in the SwiftFormat for Xcode options?
Indent width and tabs/spaces can be configured in Xcode on a per project-basis. You'll find the option under "Text Settings" in the right-hand sidebar.
Q. After applying SwiftFormat, my code won't compile. Is that a bug?
A. SwiftFormat should never break your code. Check the known issues below, and if it's not already listed there, or the suggested workaround doesn't solve your problem, please raise an issue on Github.
Q. Why did you write yet another Swift formatting tool?
A. Surprisingly, there really aren't that many other options out there, and none of them currently support all the rules I wanted. The only other comparable ones I'm aware of are Realm's SwiftLint and Jintin's Swimat - you might want to try those if SwiftFormat doesn't meet your requirements.
Q. Does it use SourceKit?
A. No. SourceKit is too slow and doesn't support parsing incomplete code fragments.
Q. What about LibSyntax?
A. No. SwiftFormat predates LibSyntax by a couple of years, and it would be a big job to rewrite.
Q. How does it work?
A. First it loops through the source file character-by-character and breaks it into tokens, such as
number
,identifier
,linebreak
, etc. That's handled by the functions inTokenizer.swift
.
Next, it applies a series of formatting rules to the token array, such as removing whitespace at the end of a line, or ensuring each opening brace appears on the same line as the preceding non-space token. The rules are defined as methods of the
FormatRules
class inRules.swift
, and are detected automatically using runtime magic. Each rule is designed to be independent of the others, so they can be enabled or disabled individually.
Rules are applied recursively until no changes are detected. Finally, the modified token array is stitched back together to re-generate the source file.
Q. Why aren't you using regular expressions?
A. See https://xkcd.com/1171/ for details.
Q. Can I use SwiftFormat to lint my code without changing it?
A. Yes, see the linting section above for details.
Q. Can I use the SwiftFormat.framework
inside another app?
A. Yes, the SwiftFormat framework can be included in an app or test target, and used for many kinds of parsing and processing of Swift source code besides formatting. The SwiftFormat framework is available as a CocoaPod for easy integration.
SwiftFormat uses a cache file to avoid reformatting files that haven't changed. For a large project, this can significantly reduce processing time.
By default, the cache is stored in ~/Library/Caches/com.charcoaldesign.swiftformat
. Use the command-line option --cache ignore
to ignore the cached version and re-apply formatting to all files. Alternatively, you can use --cache clear
to delete the cache (or you can just manually delete the cache file).
The cache is shared between all projects. The file is fairly small, as it only stores the path and size for each file, not the contents. If you do start experiencing slowdown due to the cache growing too large, you might want to consider using a separate cache file for each project.
You can specify a custom cache file location by passing a path as the --cache
option value. For example, you might want to store the cache file inside your project directory. It is fine to check in the cache file if you want to share it between different users of your project, as the paths stored in the cache are relative to the location of the formatted files.
SwiftFormat can be configured to strip or replace the header comments in every file with a template. The "header comment" is defined as a comment block that begins on the first nonblank line in the file, and is followed by at least one blank line. This may consist of a single comment body, or multiple comments on consecutive lines:
// This is a header comment
// This is a regular comment
func foo(bar: Int) -> Void { ... }
The header template is a string that you provide using the --header
command-line option. Passing a value of ignore
(the default) will leave the header comments unmodified. Passing strip
or an empty string ""
will remove them. If you wish to provide a custom header template, the format is as follows:
For a single-line template: --header "Copyright (c) 2017 Foobar Industries"
For a multiline comment, mark linebreaks with \n
: --header "First line\nSecond line"
You can optionally include Swift comment markup in the template if you wish: --header "/*--- Header comment ---*/"
If you do not include comment markup, each line in the template will be prepended with //
and a single space.
Finally, it is common practice to include the current year in a comment header copyright notice. To do that, use the following syntax:
--header "Copyright (c) {year} Foobar Industries"
And the {year}
token will be automatically replaced by the current year whenever SwiftFormat is applied (Note: the year is determined from the locale and timezone of the machine running the script).
-
When using the
--self remove
option, theredundantSelf
rule will remove references toself
in autoclosure arguments, which may change the meaning of the code, or cause it not to compile. To work around this issue, use the// swiftformat:disable:next redundantSelf
comment directive to disable the rule for any affected lines of code (or just disable theredundantSelf
rule completely). If you are using the--self insert
option then this is not an issue. -
If you assign
SomeClass.self
to a variable and then instantiate an instance of the class using that variable, Swift requires that you use an explicit.init()
, however theredundantInit
rule is not currently capable of detecting this situation and will remove the.init
. To work around this issue, use the// swiftformat:disable:next redundantInit
comment directive to disable the rule for any affected lines of code (or just disable theredundantInit
rule completely). -
The
--self insert
option can only recognize locally declared member variables, not ones inherited from superclasses or extensions in other files, so it cannot insert missingself
references for those. Note that the reverse is not true:--self remove
should remove all redundantself
references. -
The
trailingClosures
rule will sometimes generate ambiguous code that breaks your program. For this reason, the rule is disabled by default. It is recommended that you apply this rule manually and review the changes, rather than including it in an automated formatting process. -
The
isEmpty
rule will convertcount == 0
toisEmpty
even for types that do not have anisEmpty
method, such asNSArray
/NSDictionary
/etc. Use of Foundation collections in Swift code is pretty rare, but just in case, the rule is disabled by default. -
Under rare circumstances, SwiftFormat may misinterpret a generic type followed by an
=
sign as a pair of<
and>=
expressions. For example, the following case would be handled incorrectly:let foo: Dictionary<String, String>=["Hello": "World"]
To work around this, either manually add spaces around the
=
character to eliminate the ambiguity, or add a comment directive above that line in the file:// swiftformat:disable:next spaceAroundOperators let foo: Dictionary<String, String>=["Hello": "World"]
-
If a file begins with a comment, the
stripHeaders
rule will remove it if is followed by a blank line. To avoid this, make sure that the first comment is directly followed by a line of code. -
SwiftFormat currently reformats multiline comment blocks without regard for the original indenting. That means
/* some documentation func codeExample() { print("Hello World") } */
Will become
/* some documentation func codeExample() { print("Hello World") } */
To work around that, you can disable automatic indenting of comments using the
comments
command-line flag.Alternatively, if you prefer to leave the comment indenting feature enabled, you can rewrite your multiline comment as a block of single-line comments...
// some documentation // // func codeExample() { // print("Hello World") // } // //
Or begin each line with a
*
(or any other non-whitespace character)/* some documentation * * func codeExample() { * print("Hello World") * } * */
-
The formatted file cache is based on a hash of the file contents, so it's possible (though unlikely) that an edited file will have the exact same hash as the previously formatted version, causing SwiftFormat to incorrectly identify it as not having changed, and fail to update it.
To fix this, you can use the command-line option
--cache ignore
to force SwiftFormat to ignore the cache for this run, or just type an extra space in the file (which SwiftFormat will then remove again when it applies the correct formatting).
- Tony Arnold - Xcode source editor extension
- Vincent Bernier - Xcode extension settings UI
- Maxime Marinel - Git pre-commit hook script
- Romain Pouclet - Homebrew formula
- Ali Akhtarzada - Several path-related CLI enhancements
- Yonas Kolb - Swift Package Manager integration
- Nick Lockwood - Everything else