f97ec8d1d2
Conflicts: Snap/ConstraintMaker.swift Snap/View+Snap.swift |
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CodeSnippets | ||
Snap | ||
Snap.xcodeproj | ||
SnapTests | ||
.gitignore | ||
CHANGELOG.md | ||
LICENSE | ||
README.md | ||
Snap.podspec |
README.md
Snap
Snap is a light-weight layout framework which wraps AutoLayout with a nicer syntax. Snap has its own layout DSL which provides a chainable way of describing your NSLayoutConstraints which results in layout code that is more concise and readable. Snap supports both iOS and OS X.
Snap uses some Swift-only features like function overloading, so it cannot be used from Objective-C. Because of this we’ve chosen to swap prefixes from Masonry’s
mas_
tosnp_
so you can use both Masonry and Snap in the same project.
Requirements
- iOS 7.0+ / Mac OS X 10.9+ (Using Cocoapods 0.36.0.beta.1 or later – iOS 8.0+ / Mac OS X 10.9+)
- Xcode 6.1
Installation
Due to the current lack of proper infrastructure for Swift dependency management, using Snap in your project requires the following steps:
- Add Snap as a submodule by opening the Terminal,
cd
-ing into your top-level project directory, and entering the commandgit submodule add https://github.com/Masonry/Snap.git
- Open the
Snap
folder, and dragSnap.xcodeproj
into the file navigator of your Xcode project1. - In Xcode, navigate to the target configuration window by clicking on the blue project icon, and selecting the application target under the "Targets" heading in the sidebar.
- In the tab bar at the top of that window, open the "General" panel.
- Click on the
+
button in the "Embedded Binaries" group of the panel and select and addSnap.framework
.
1It's important you add Snap as a subproject of your Xcode Project and not of a potential Xcode Workspace containing your project
Installation (Cocoapods pre-release)
- Add Snap as a line in your Podfile
pod 'Snap'
- Run
pod install
- Add
import Snap
to yourAppDelegate.swift
What's wrong with NSLayoutConstraints?
Under the hood Auto Layout is a powerful and flexible way of organising and laying out your views. However creating constraints from code is verbose and not very descriptive. Imagine a simple example in which you want to have a view fill its superview but inset by 10 pixels on every side
let superview = self;
let view1 = UIView()
view1.setTranslatesAutoresizingMaskIntoConstraints(false)
view1.backgroundColor = UIColor.greenColor()
superview.addSubview(view1)
let padding = UIEdgeInsetsMake(10, 10, 10, 10)
superview.addConstraints([
NSLayoutConstraint(
item: view1,
attribute: NSLayoutAttribute.Top,
relatedBy: NSLayoutRelation.Equal,
toItem: superview,
attribute: NSLayoutAttribute.Top,
multiplier: 1.0,
constant: padding.top
),
NSLayoutConstraint(
item: view1,
attribute: NSLayoutAttribute.Left,
relatedBy: NSLayoutRelation.Equal,
toItem: superview,
attribute: NSLayoutAttribute.Left,
multiplier: 1.0,
constant: padding.left
),
NSLayoutConstraint(
item: view1,
attribute: NSLayoutAttribute.Bottom,
relatedBy: NSLayoutRelation.Equal,
toItem: superview,
attribute: NSLayoutAttribute.Bottom,
multiplier: 1.0,
constant: -padding.bottom
),
NSLayoutConstraint(
item: view1,
attribute: NSLayoutAttribute.Right,
relatedBy: NSLayoutRelation.Equal,
toItem: superview,
attribute: NSLayoutAttribute.Right,
multiplier: 1.0,
constant: -padding.right
)
])
Even with such a simple example the code needed is quite verbose and quickly becomes unreadable when you have more than 2 or 3 views.
Another option is to use Visual Format Language (VFL), which is a bit less long winded.
However the ASCII type syntax has its own pitfalls and its also a bit harder to animate as NSLayoutConstraint.constraintsWithVisualFormat
returns an array.
Prepare to meet your Maker!
Heres the same constraints created using ConstraintMaker
let padding = UIEdgeInsetsMake(10, 10, 10, 10)
view1.snp_makeConstraints { make in
make.top.equalTo(superview.snp_top).with.offset(padding.top) // with is an optional semantic filler
make.left.equalTo(superview.snp_left).with.offset(padding.left)
make.bottom.equalTo(superview.snp_bottom).with.offset(-padding.bottom)
make.right.equalTo(superview.snp_right).with.offset(-padding.right)
}
Or even shorter
view1.snp_makeConstraints { make in
make.edges.equalTo(superview).with.insets(padding)
return // this return is a fix for implicit returns in Swift and is only required for single line constraints
}
Also note in the first example we had to add the constraints to the superview superview.addConstraints
.
Snap however will automagically add constraints to the appropriate view.
Snap will also call view1.setTranslatesAutoresizingMaskIntoConstraints(false)
for you.
Not all things are created equal
.equalTo
equivalent to NSLayoutRelation.Equal
.lessThanOrEqualTo
equivalent to NSLayoutRelation.LessThanOrEqual
.greaterThanOrEqualTo
equivalent to NSLayoutRelation.GreaterThanOrEqual
These three equality constraints accept one argument which can be any of the following:
1. ViewAttribute
make.centerX.lessThanOrEqualTo(view2.snp_left)
ViewAttribute | NSLayoutAttribute |
---|---|
view.snp_left | NSLayoutAttribute.Left |
view.snp_right | NSLayoutAttribute.Right |
view.snp_top | NSLayoutAttribute.Top |
view.snp_bottom | NSLayoutAttribute.Bottom |
view.snp_leading | NSLayoutAttribute.Leading |
view.snp_trailing | NSLayoutAttribute.Trailing |
view.snp_width | NSLayoutAttribute.Width |
view.snp_height | NSLayoutAttribute.Height |
view.snp_centerX | NSLayoutAttribute.CenterX |
view.snp_centerY | NSLayoutAttribute.CenterY |
view.snp_baseline | NSLayoutAttribute.Baseline |
2. UIView/NSView
if you want view.left to be greater than or equal to label.left :
// these two constraints are exactly the same
make.left.greaterThanOrEqualTo(label)
make.left.greaterThanOrEqualTo(label.snp_left)
3. Strict Checks
Auto Layout allows width and height to be set to constant values. if you want to set view to have a minimum and maximum width you could pass a primitive to the equality blocks:
// width >= 200 && width <= 400
make.width.greaterThanOrEqualTo(200)
make.width.lessThanOrEqualTo(400)
However Auto Layout does not allow alignment attributes such as left, right, centerY etc to be set to constant values. So if you pass a primitive for these attributes Snap will turn these into constraints relative to the view’s superview ie:
// creates view.left <= view.superview.left + 10
make.left.lessThanOrEqualTo(10)
You can also use other primitives and structs to build your constraints, like so:
make.top.equalTo(42)
make.height.equalTo(20)
make.size.equalTo(CGSizeMake(50, 100))
make.edges.equalTo(UIEdgeInsetsMake(10, 0, 10, 0))
make.left.equalTo(view).offset(UIEdgeInsetsMake(10, 0, 10, 0))
Learn to prioritize
.prority
allows you to specify an exact priority
.priorityHigh
equivalent to UILayoutPriority.DefaultHigh
.priorityMedium
is half way between high and low
.priorityLow
equivalent to UILayoutPriority.DefaultLow
Priorities are can be tacked on to the end of a constraint chain like so:
make.left.greaterThanOrEqualTo(label.snp_left).with.priorityLow();
make.top.equalTo(label.snp_top).with.priority(600);
Composition, composition, composition
Snap also gives you a few convenience methods which create multiple constraints at the same time.
edges
// make top, left, bottom, right equal view2
make.edges.equalTo(view2);
// make top = superview.top + 5, left = superview.left + 10,
// bottom = superview.bottom - 15, right = superview.right - 20
make.edges.equalTo(superview).insets(UIEdgeInsetsMake(5, 10, 15, 20))
size
// make width and height greater than or equal to titleLabel
make.size.greaterThanOrEqualTo(titleLabel)
// make width = superview.width + 100, height = superview.height - 50
make.size.equalTo(superview).offset(CGSizeMake(100, -50))
center
// make centerX and centerY = button1
make.center.equalTo(button1)
// make centerX = superview.centerX - 5, centerY = superview.centerY + 10
make.center.equalTo(superview).offset(CGPointMake(-5, 10))
You can chain view attributes for increased readability:
// All edges but the top should equal those of the superview
make.left.right.and.bottom.equalTo(superview)
make.top.equalTo(otherView)
Hold on for dear life
Sometimes you need modify existing constraints in order to animate or remove/replace constraints. In Snap there are a few different approaches to updating constraints.
1. References
You can hold on to a reference of a particular constraint by assigning the result of a constraint make expression to a local variable or a class property. You could also reference multiple constraints by storing them away in an array.
var topConstraint: Constraint? = nil
...
// when making constraints
view1.snp_makeConstraints { make in
self.topConstraint = make.top.equalTo(superview).with.offset(padding.top)
make.left.equalTo(superview).with.offset(padding.left)
}
...
// then later you can call
self.topConstraint.uninstall()
2. snp_remakeConstraints
snp_remakeConstraints
is similar to snp_makeConstraints
, but will first remove all existing constraints installed by Snap.
func changeButtonPosition() {
self.button.snp_remakeConstraints { make in
make.size.equalTo(self.buttonSize)
if topLeft {
make.top.left.equalTo(10)
} else {
make.bottom.equalTo(self.view).offset(-10)
make.right.equalTo(self.view).offset(-10)
}
}
}
Code Snippets
Copy the included code snippets to ~/Library/Developer/Xcode/UserData/CodeSnippets
to write your snap closures at lightning speed!
snp_make
-> <view>.snp_makeConstraints { make in <code> }
snp_remake
-> <view>.snp_remakeConstraints { make in <code> }
TODO
- Eye candy
- Example projects
- Tests