This style guide outlines the coding conventions of the iOS teams at The New York Times. We welcome your feedback in issues, pull requests and tweets. Also, we’re hiring.
Thanks to all of our contributors.
Here are some of the documents from Apple that informed the style guide. If something isn’t mentioned here, it’s probably covered in great detail in one of these:
- The Objective-C Programming Language
- Cocoa Fundamentals Guide
- Coding Guidelines for Cocoa
- iOS App Programming Guide
- Dot Notation Syntax
- Spacing
- Conditionals
- Error handling
- Methods
- Variables
- Naming
- Comments
- Init & Dealloc
- Literals
- CGRect Functions
- Constants
- Enumerated Types
- Bitmasks
- Private Properties
- Image Naming
- Booleans
- Singletons
- Imports
- Protocols
- Xcode Project
Dot notation should always be used for accessing and mutating properties. Bracket notation is preferred in all other instances.
For example:
view.backgroundColor = [UIColor orangeColor];
[UIApplication sharedApplication].delegate;
Not:
[view setBackgroundColor:[UIColor orangeColor]];
UIApplication.sharedApplication.delegate;
- Indent using 4 spaces. Never indent with tabs. Be sure to set this preference in Xcode.
- Method braces and other braces (
if
/else
/switch
/while
etc.) always open on the same line as the statement but close on a new line.
For example:
if (user.isHappy) {
// Do something
}
else {
// Do something else
}
- There should be exactly one blank line between methods to aid in visual clarity and organization.
- Whitespace within methods should be used to separate functionality (though often this can indicate an opportunity to split the method into several, smaller methods). In methods with long or verbose names, a single line of whitespace may be used to provide visual separation before the method’s body.
@synthesize
and@dynamic
should each be declared on new lines in the implementation.
Conditional bodies should always use braces even when a conditional body could be written without braces (e.g., it is one line only) to prevent errors. These errors include adding a second line and expecting it to be part of the if-statement. Another, even more dangerous defect may happen where the line “inside” the if-statement is commented out, and the next line unwittingly becomes part of the if-statement. In addition, this style is more consistent with all other conditionals, and therefore more easily scannable.
For example:
if (!error) {
return success;
}
Not:
if (!error)
return success;
or
if (!error) return success;
The ternary operator, ?
, should only be used when it increases clarity or code neatness. A single condition is usually all that should be evaluated. Evaluating multiple conditions is usually more understandable as an if statement, or refactored into named variables.
For example:
result = a > b ? x : y;
Not:
result = a > b ? x = c > d ? c : d : y;
When methods return an error parameter by reference, switch on the returned value, not the error variable.
For example:
NSError *error;
if (![self trySomethingWithError:&error]) {
// Handle Error
}
Not:
NSError *error;
[self trySomethingWithError:&error];
if (error) {
// Handle Error
}
Some of Apple’s APIs write garbage values to the error parameter (if non-NULL) in successful cases, so switching on the error can cause false negatives (and subsequently crash).
In method signatures, there should be a space after the scope (-
or +
symbol). There should be a space between the method segments.
For example:
- (void)setExampleText:(NSString *)text image:(UIImage *)image;
Variables should be named descriptively, with the variable’s name clearly communicating what the variable is and pertinent information a programmer needs to use that value properly.
For example:
NSString *title
: It is reasonable to assume a “title” is a string.NSString *titleHTML
: This indicates a title that may contain HTML which needs parsing for display. “HTML” is needed for a programmer to use this variable effectively.NSAttributedString *titleAttributedString
: A title, already formatted for display.AttributedString
hints that this value is not just a vanilla title, and adding it could be a reasonable choice depending on context.NSDate *now
: No further clarification is needed.NSDate *lastModifiedDate
: SimplylastModified
can be ambiguous; depending on context, one could reasonably assume it is one of a few different types.NSURL *URL
vs.NSString *URLString
: In situations when a value can reasonably be represented by different classes, it is often useful to disambiguate in the variable’s name.NSString *releaseDateString
: Another example where a value could be represented by another class, and the name can help disambiguate.
Single letter variable names should be avoided except as simple counter variables in loops.
Asterisks indicating a type is a pointer should be “attached to” the variable name. For example, NSString *text
not NSString* text
or NSString * text
, except in the case of constants (NSString * const NYTConstantString
).
Property definitions should be used in place of naked instance variables whenever possible. Direct instance variable access should be avoided except in initializer methods (init
, initWithCoder:
, etc…), dealloc
methods and within custom setters and getters. For more information, see Apple’s docs on using accessor methods in initializer methods and dealloc
.
For example:
@interface NYTSection: NSObject
@property (nonatomic) NSString *headline;
@end
Not:
@interface NYTSection : NSObject {
NSString *headline;
}
When it comes to the variable qualifiers introduced with ARC, the qualifier (__strong
, __weak
, __unsafe_unretained
, __autoreleasing
) should be placed between the asterisks and the variable name, e.g., NSString * __weak text
.
Apple naming conventions should be adhered to wherever possible, especially those related to memory management rules (NARC).
Long, descriptive method and variable names are good.
For example:
UIButton *settingsButton;
Not
UIButton *setBut;
A three letter prefix (e.g., NYT
) should always be used for class names and constants, however may be omitted for Core Data entity names. Constants should be camel-case with all words capitalized and prefixed by the related class name for clarity. A two letter prefix (e.g., NS
) is reserved for use by Apple.
For example:
static const NSTimeInterval NYTArticleViewControllerNavigationFadeAnimationDuration = 0.3;
Not:
static const NSTimeInterval fadetime = 1.7;
Properties and local variables should be camel-case with the leading word being lowercase.
Instance variables should be camel-case with the leading word being lowercase, and should be prefixed with an underscore. This is consistent with instance variables synthesized automatically by LLVM. If LLVM can synthesize the variable automatically, then let it.
For example:
@synthesize descriptiveVariableName = _descriptiveVariableName;
Not:
id varnm;
Categories may be used to concisely segment functionality and should be named to describe that functionality.
For example:
@interface UIViewController (NYTMediaPlaying)
@interface NSString (NSStringEncodingDetection)
Not:
@interface NYTAdvertisement (private)
@interface NSString (NYTAdditions)
Methods and properties added in categories should be named with an app- or organization-specific prefix. This avoids unintentionally overriding an existing method, and it reduces the chance of two categories from different libraries adding a method of the same name. (The Objective-C runtime doesn’t specify which method will be called in the latter case, which can lead to unintended effects.)
For example:
@interface NSArray (NYTAccessors)
- (id)nyt_objectOrNilAtIndex:(NSUInteger)index;
@end
Not:
@interface NSArray (NYTAccessors)
- (id)objectOrNilAtIndex:(NSUInteger)index;
@end
When they are needed, comments should be used to explain why a particular piece of code does something. Any comments that are used must be kept up-to-date or deleted.
Block comments should generally be avoided, as code should be as self-documenting as possible, with only the need for intermittent, few-line explanations. This does not apply to those comments used to generate documentation.
dealloc
methods should be placed at the top of the implementation, directly after the @synthesize
and @dynamic
statements. init
should be placed directly below the dealloc
methods of any class.
init
methods should be structured like this:
- (instancetype)init {
self = [super init]; // or call the designated initializer
if (self) {
// Custom initialization
}
return self;
}
NSString
, NSDictionary
, NSArray
, and NSNumber
literals should be used whenever creating immutable instances of those objects. Pay special care that nil
values not be passed into NSArray
and NSDictionary
literals, as this will cause a crash.
For example:
NSArray *names = @[@"Brian", @"Matt", @"Chris", @"Alex", @"Steve", @"Paul"];
NSDictionary *productManagers = @{@"iPhone" : @"Kate", @"iPad" : @"Kamal", @"Mobile Web" : @"Bill"};
NSNumber *shouldUseLiterals = @YES;
NSNumber *buildingZIPCode = @10018;
Not:
NSArray *names = [NSArray arrayWithObjects:@"Brian", @"Matt", @"Chris", @"Alex", @"Steve", @"Paul", nil];
NSDictionary *productManagers = [NSDictionary dictionaryWithObjectsAndKeys: @"Kate", @"iPhone", @"Kamal", @"iPad", @"Bill", @"Mobile Web", nil];
NSNumber *shouldUseLiterals = [NSNumber numberWithBool:YES];
NSNumber *buildingZIPCode = [NSNumber numberWithInteger:10018];
When accessing the x
, y
, width
, or height
of a CGRect
, always use the CGGeometry
functions instead of direct struct member access. From Apple's CGGeometry
reference:
All functions described in this reference that take CGRect data structures as inputs implicitly standardize those rectangles before calculating their results. For this reason, your applications should avoid directly reading and writing the data stored in the CGRect data structure. Instead, use the functions described here to manipulate rectangles and to retrieve their characteristics.
For example:
CGRect frame = self.view.frame;
CGFloat x = CGRectGetMinX(frame);
CGFloat y = CGRectGetMinY(frame);
CGFloat width = CGRectGetWidth(frame);
CGFloat height = CGRectGetHeight(frame);
Not:
CGRect frame = self.view.frame;
CGFloat x = frame.origin.x;
CGFloat y = frame.origin.y;
CGFloat width = frame.size.width;
CGFloat height = frame.size.height;
Constants are preferred over in-line string literals or numbers, as they allow for easy reproduction of commonly used variables and can be quickly changed without the need for find and replace. Constants should be declared as static
constants and not #define
s unless explicitly being used as a macro.
For example:
static NSString * const NYTAboutViewControllerCompanyName = @"The New York Times Company";
static const CGFloat NYTImageThumbnailHeight = 50.0;
Not:
#define CompanyName @"The New York Times Company"
#define thumbnailHeight 2
When using enum
s, use the new fixed underlying type specification, which provides stronger type checking and code completion. The SDK includes a macro to facilitate and encourage use of fixed underlying types: NS_ENUM()
.
Example:
typedef NS_ENUM(NSInteger, NYTAdRequestState) {
NYTAdRequestStateInactive,
NYTAdRequestStateLoading
};
When working with bitmasks, use the NS_OPTIONS
macro.
Example:
typedef NS_OPTIONS(NSUInteger, NYTAdCategory) {
NYTAdCategoryAutos = 1 << 0,
NYTAdCategoryJobs = 1 << 1,
NYTAdCategoryRealState = 1 << 2,
NYTAdCategoryTechnology = 1 << 3
};
Private properties should be declared in class extensions (anonymous categories) in the implementation file of a class.
For example:
@interface NYTAdvertisement ()
@property (nonatomic, strong) GADBannerView *googleAdView;
@property (nonatomic, strong) ADBannerView *iAdView;
@property (nonatomic, strong) UIWebView *adXWebView;
@end
Image names should be named consistently to preserve organization and developer sanity. They should be named as one camel case string with a description of their purpose, followed by the un-prefixed name of the class or property they are customizing (if there is one), followed by a further description of color and/or placement, and finally their state.
For example:
RefreshBarButtonItem
/RefreshBarButtonItem@2x
andRefreshBarButtonItemSelected
/RefreshBarButtonItemSelected@2x
ArticleNavigationBarWhite
/ArticleNavigationBarWhite@2x
andArticleNavigationBarBlackSelected
/ArticleNavigationBarBlackSelected@2x
.
Images that are used for a similar purpose should be grouped in respective groups in an Images folder or Asset Catalog.
Never compare something directly to YES
, because YES
is defined as 1
, and a BOOL
in Objective-C is a CHAR
type that is 8 bits long (so a value of 11111110
will return NO
if compared to YES
).
For an object pointer:
if (!someObject) {
}
if (someObject == nil) {
}
For a BOOL
value:
if (isAwesome)
if (!someNumber.boolValue)
if (someNumber.boolValue == NO)
Not:
if (isAwesome == YES) // Never do this.
If the name of a BOOL
property is expressed as an adjective, the property’s name can omit the is
prefix but should specify the conventional name for the getter.
For example:
@property (assign, getter=isEditable) BOOL editable;
Text and example taken from the Cocoa Naming Guidelines.
Singleton objects should use a thread-safe pattern for creating their shared instance.
+ (instancetype)sharedInstance {
static id sharedInstance = nil;
static dispatch_once_t onceToken;
dispatch_once(&onceToken, ^{
sharedInstance = [[[self class] alloc] init];
});
return sharedInstance;
}
This will prevent possible and sometimes frequent crashes.
If there is more than one import statement, group the statements together. Commenting each group is optional.
Note: For modules use the @import syntax.
// Frameworks
@import QuartzCore;
// Models
#import "NYTUser.h"
// Views
#import "NYTButton.h"
#import "NYTUserView.h"
In a delegate or data source protocol, the first parameter to each method should be the object sending the message.
This helps disambiguate in cases when an object is the delegate for multiple similarly-typed objects, and it helps clarify intent to readers of a class implementing these delegate methods.
For example:
- (void)tableView:(UITableView *)tableView didSelectRowAtIndexPath:(NSIndexPath *)indexPath;
Not:
- (void)didSelectTableRowAtIndexPath:(NSIndexPath *)indexPath;
The physical files should be kept in sync with the Xcode project files in order to avoid file sprawl. Any Xcode groups created should be reflected by folders in the filesystem. Code should be grouped not only by type, but also by feature for greater clarity.
When possible, always turn on “Treat Warnings as Errors” in the target’s Build Settings and enable as many additional warnings as possible. If you need to ignore a specific warning, use Clang’s pragma feature.
If ours doesn’t fit your tastes, have a look at some other style guides: