Masonry的使用

对着背影说爱祢 提交于 2019-12-05 15:28:39

Masonry 源码:https://github.com/Masonry/Masonry

Masonry是一个轻量级的布局框架 拥有自己的描述语法 采用更优雅的链式语法封装自动布局 简洁明了 并具有高可读性 而且同时支持 iOS 和 Max OS X。

我们先来看一段官方的sample code来认识一下Masonry

[view1 mas_makeConstraints:^(MASConstraintMaker *make) {
    make.edges.equalTo(superview).with.insets(padding);
}];

看到block里面的那句话: make edges equalTo superview with insets

通过链式的自然语言 就把view1给autolayout好了 是不是简单易懂?

使用

看一下Masonry支持哪一些属性


@property (nonatomic, strong, readonly) MASConstraint *left;
@property (nonatomic, strong, readonly) MASConstraint *top;
@property (nonatomic, strong, readonly) MASConstraint *right;
@property (nonatomic, strong, readonly) MASConstraint *bottom;
@property (nonatomic, strong, readonly) MASConstraint *leading;
@property (nonatomic, strong, readonly) MASConstraint *trailing;
@property (nonatomic, strong, readonly) MASConstraint *width;
@property (nonatomic, strong, readonly) MASConstraint *height;
@property (nonatomic, strong, readonly) MASConstraint *centerX;
@property (nonatomic, strong, readonly) MASConstraint *centerY;
@property (nonatomic, strong, readonly) MASConstraint *baseline;

这些属性与NSLayoutAttrubute的对照表如下

43.jpg

其中leading与left trailing与right 在正常情况下是等价的 但是当一些布局是从右至左时(比如阿拉伯文?没有类似的经验) 则会对调 换句话说就是基本可以不理不用 用left和right就好了

在ios8发布后 又新增了一堆奇奇怪怪的属性(有兴趣的朋友可以去瞅瞅) Masonry暂时还不支持(不过你要支持ios6,ios7 就没必要去管那么多了)

在讲实例之前 先介绍一个MACRO

#define WS(weakSelf)  __weak __typeof(&*self)weakSelf = self;

快速的定义一个weakSelf 当然是用于block里面啦 下面进入正题(为了方便 我们测试的superView都是一个size为(300,300)的UIView)

下面 通过一些简单的实例来简单介绍如何轻松愉快的使用Masonry:

1. [基础] 居中显示一个view

- (void)viewDidLoad
{
    [super viewDidLoad];
    // Do any additional setup after loading the view.
     
    WS(ws);
     
    UIView *sv = [UIView new];
    [sv showPlaceHolder];
    sv.backgroundColor = [UIColor blackColor];
    [self.view addSubview:sv];
    [sv mas_makeConstraints:^(MASConstraintMaker *make) {
        make.center.equalTo(ws.view);
        make.size.mas_equalTo(CGSizeMake(300, 300));
    }];
     
}

使用我之间写的MMPlaceHolder 可以看到superview已经按照我们预期居中并且设置成了适当的大小

那么先看看这几行代码:

//从此以后基本可以抛弃CGRectMake了
UIView *sv = [UIView new];
//在做autoLayout之前 一定要先将view添加到superview上 否则会报错
[self.view addSubview:sv];
//mas_makeConstraints就是Masonry的autolayout添加函数 将所需的约束添加到block中行了
[sv mas_makeConstraints:^(MASConstraintMaker *make) {
//将sv居中(很容易理解吧?)
    make.center.equalTo(ws.view);
     
    //将size设置成(300,300)
    make.size.mas_equalTo(CGSizeMake(300, 300));
}];

这里有两个问题要分解一下

首先在Masonry中能够添加autolayout约束有三个函数:

- (NSArray *)mas_makeConstraints:(void(^)(MASConstraintMaker *make))block;

- (NSArray *)mas_updateConstraints:(void(^)(MASConstraintMaker *make))block;

- (NSArray *)mas_remakeConstraints:(void(^)(MASConstraintMaker *make))block;

/*

mas_makeConstraints 只负责新增约束 Autolayout不能同时存在两条针对于同一对象的约束 否则会报错 

mas_updateConstraints 针对上面的情况 会更新在block中出现的约束 不会导致出现两个相同约束的情况

mas_remakeConstraints 则会清除之前的所有约束 仅保留最新的约束

三种函数善加利用 就可以应对各种情况了

*/

其次 equalTo 和 mas_equalTo的区别在哪里呢? 其实 mas_equalTo是一个MACRO

#define mas_equalTo(...)                 equalTo(MASBoxValue((__VA_ARGS__)))
#define mas_greaterThanOrEqualTo(...)    greaterThanOrEqualTo(MASBoxValue((__VA_ARGS__)))
#define mas_lessThanOrEqualTo(...)       lessThanOrEqualTo(MASBoxValue((__VA_ARGS__)))
#define mas_offset(...)                  valueOffset(MASBoxValue((__VA_ARGS__)))

可以看到 mas_equalTo只是对其参数进行了一个BOX操作(装箱) MASBoxValue的定义具体可以看看源代码 太长就不贴出来了

所支持的类型 除了NSNumber支持的那些数值类型之外 就只支持CGPoint CGSize UIEdgeInsets

介绍完这几个问题 我们就继续往下了 PS:刚才定义的sv会成为我们接下来所有sample的superView

2. [初级] 让一个view略小于其superView(边距为10)

UIView *sv1 = [UIView new];
[sv1 showPlaceHolder];
sv1.backgroundColor = [UIColor redColor];
[sv addSubview:sv1];
[sv1 mas_makeConstraints:^(MASConstraintMaker *make) {
    make.edges.equalTo(sv).with.insets(UIEdgeInsetsMake(10, 10, 10, 10));
     
    /* 等价于
    make.top.equalTo(sv).with.offset(10);
    make.left.equalTo(sv).with.offset(10);
    make.bottom.equalTo(sv).with.offset(-10);
    make.right.equalTo(sv).with.offset(-10);
    */
     
    /* 也等价于
    make.top.left.bottom.and.right.equalTo(sv).with.insets(UIEdgeInsetsMake(10, 10, 10, 10));
    */
}];

可以看到 edges 其实就是top,left,bottom,right的一个简化 分开写也可以 一句话更省事

那么为什么bottom和right里的offset是负数呢? 因为这里计算的是绝对的数值 计算的bottom需要小鱼sv的底部高度 所以要-10 同理用于right

这里有意思的地方是and和with 其实这两个函数什么事情都没做

- (MASConstraint *)with {
    return self;
}
- (MASConstraint *)and {
    return self;
}

但是用在这种链式语法中 就非常的巧妙和易懂 不得不佩服作者的心思

3. [初级] 让两个高度为150的view垂直居中且等宽且等间隔排列 间隔为10(自动计算其宽度)

int padding1 = 10;
[sv2 mas_makeConstraints:^(MASConstraintMaker *make) {
    make.centerY.mas_equalTo(sv.mas_centerY);
    make.left.equalTo(sv.mas_left).with.offset(padding1);
    make.right.equalTo(sv3.mas_left).with.offset(-padding1);
    make.height.mas_equalTo(@150);
    make.width.equalTo(sv3);
}];
[sv3 mas_makeConstraints:^(MASConstraintMaker *make) {
    make.centerY.mas_equalTo(sv.mas_centerY);
    make.left.equalTo(sv2.mas_right).with.offset(padding1);
    make.right.equalTo(sv.mas_right).with.offset(-padding1);
    make.height.mas_equalTo(@150);
    make.width.equalTo(sv2);
}];

这里我们在两个子view之间互相设置的约束 可以看到他们的宽度在约束下自动的被计算出来了

通过Masonry实现动画,

 UIView *redView = [[UIView alloc]init];
    redView.backgroundColor = [UIColor redColor];
    [self.view addSubview:redView];
    UIView *greenView = [[UIView alloc]init];
    greenView.backgroundColor = [UIColor greenColor];
    [self.view addSubview:greenView];
    UIView *blueView = [[UIView alloc]init];
    blueView.backgroundColor  = [UIColor blueColor];
    [self.view addSubview:blueView];

    [redView mas_makeConstraints:^(MASConstraintMaker *make) {
        make.left.equalTo(self.view.mas_left).offset(20);
        make.bottom.equalTo(self.view.mas_bottom).offset(-20);
        make.width.equalTo(self.view.mas_width).multipliedBy(0.2);
        make.height.equalTo(self.view.mas_height).multipliedBy(0.2);
    }];
    [greenView mas_makeConstraints:^(MASConstraintMaker *make) {
        make.left.equalTo(redView.mas_right).offset(20);
        make.bottom.equalTo(self.view.mas_bottom).offset(-20);
        make.width.equalTo(self.view.mas_width).multipliedBy(0.2);
        make.height.equalTo(self.view.mas_height).multipliedBy(0.2);
    }];
    [blueView mas_makeConstraints:^(MASConstraintMaker *make) {
        make.left.equalTo(greenView.mas_right).offset(20);
        make.bottom.equalTo(self.view.mas_bottom).offset(-20);
        make.width.equalTo(self.view.mas_width).multipliedBy(0.2);
        make.height.equalTo(self.view.mas_height).multipliedBy(0.2);
        // 设置约束优先级
        make.left.equalTo(redView.mas_right).offset(20).priority(250);
    }];

动画代码:

[self.greenView removeFromSuperview];
    [UIView animateWithDuration:1.0f animations:^{
        [self.view layoutIfNeeded];
    }];

动画效果请自行脑补....

mas_lessThanOrEqualTo / mas_greaterThanOrEqualTo的用法:

/**
 *  两个label 随长度自适应,绿色变长时,红色的label 变短 ,但是至少留给红色label50个点长度
 */
- (void)viewDidLoad {
    [super viewDidLoad];
    
    UILabel *greenLabel = [[UILabel alloc] init];
    greenLabel.backgroundColor = [UIColor greenColor];
    [self.view addSubview:greenLabel];
    greenLabel.text = @"123asdfasd3adsfasdfadsfsdafd3adsfasdfadsfsdaf";

    
    UILabel *redLabel = [[UILabel alloc] init];
    redLabel.backgroundColor = UIColor.redColor;
    [self.view addSubview:redLabel];
    redLabel.text = @"123asdfa2eaefqwerqwdafdafsdfadsfasdfad";
    
    [greenLabel mas_makeConstraints:^(MASConstraintMaker *make) {
        make.top.mas_equalTo(100);
        make.left.mas_equalTo(self.view).offset(10);
//        make.height.mas_equalTo(20);
        make.width.mas_lessThanOrEqualTo(self.view.frame.size.width - 50);
    }];
    
    
    [redLabel mas_makeConstraints:^(MASConstraintMaker *make) {
        make.top.mas_equalTo(greenLabel);
        make.right.equalTo(self.view);
        make.left.mas_equalTo(greenLabel.mas_right);
//        make.height.mas_equalTo(20);
    }];
}

     

4. [中级] 在UIScrollView顺序排列一些view并自动计算contentSize

UIScrollView *scrollView = [UIScrollView new];
scrollView.backgroundColor = [UIColor whiteColor];
[sv addSubview:scrollView];
[scrollView mas_makeConstraints:^(MASConstraintMaker *make) {
    make.edges.equalTo(sv).with.insets(UIEdgeInsetsMake(5,5,5,5));
}];
UIView *container = [UIView new];
[scrollView addSubview:container];
[container mas_makeConstraints:^(MASConstraintMaker *make) {
    make.edges.equalTo(scrollView);
    make.width.equalTo(scrollView);
}];
int count = 10;
UIView *lastView = nil;
for ( int i = 1 ; i <= count ; ++i )
{
    UIView *subv = [UIView new];
    [container addSubview:subv];
    subv.backgroundColor = [UIColor colorWithHue:( arc4random() % 256 / 256.0 )
                                      saturation:( arc4random() % 128 / 256.0 ) + 0.5
                                      brightness:( arc4random() % 128 / 256.0 ) + 0.5
                                           alpha:1];
     
    [subv mas_makeConstraints:^(MASConstraintMaker *make) {
        make.left.and.right.equalTo(container);
        make.height.mas_equalTo(@(20*i));
         
        if ( lastView )
        {
            make.top.mas_equalTo(lastView.mas_bottom);
        }
        else
        {
            make.top.mas_equalTo(container.mas_top);
        }
    }];
     
    lastView = subv;
}
[container mas_makeConstraints:^(MASConstraintMaker *make) {
    make.bottom.equalTo(lastView.mas_bottom);
}];

头部效果:

尾部效果:

从scrollView的scrollIndicator可以看出 scrollView的内部已如我们所想排列好了

这里的关键就在于container这个view起到了一个中间层的作用 能够自动的计算uiscrollView的contentSize

5. [高级] 横向或者纵向等间隙的排列一组view

很遗憾 autoLayout并没有直接提供等间隙排列的方法(Masonry的官方demo中也没有对应的案例) 但是参考案例3 我们可以通过一个小技巧来实现这个目的 为此我写了一个Category

@implementation UIView(Masonry_LJC)
- (void) distributeSpacingHorizontallyWith:(NSArray*)views
{
    NSMutableArray *spaces = [NSMutableArray arrayWithCapacity:views.count+1];
     
    for ( int i = 0 ; i < views.count+1 ; ++i )
    {
        UIView *v = [UIView new];
        [spaces addObject:v];
        [self addSubview:v];
         
        [v mas_makeConstraints:^(MASConstraintMaker *make) {
            make.width.equalTo(v.mas_height);
        }];
    }    
     
    UIView *v0 = spaces[0];
     
    __weak __typeof(&*self)ws = self;
     
    [v0 mas_makeConstraints:^(MASConstraintMaker *make) {
        make.left.equalTo(ws.mas_left);
        make.centerY.equalTo(((UIView*)views[0]).mas_centerY);
    }];
     
    UIView *lastSpace = v0;
    for ( int i = 0 ; i < views.count; ++i )
    {
        UIView *obj = views[i];
        UIView *space = spaces[i+1];
         
        [obj mas_makeConstraints:^(MASConstraintMaker *make) {
            make.left.equalTo(lastSpace.mas_right);
        }];
         
        [space mas_makeConstraints:^(MASConstraintMaker *make) {
            make.left.equalTo(obj.mas_right);
            make.centerY.equalTo(obj.mas_centerY);
            make.width.equalTo(v0);
        }];
         
        lastSpace = space;
    }
     
    [lastSpace mas_makeConstraints:^(MASConstraintMaker *make) {
        make.right.equalTo(ws.mas_right);
    }];
     
}
- (void) distributeSpacingVerticallyWith:(NSArray*)views
{
    NSMutableArray *spaces = [NSMutableArray arrayWithCapacity:views.count+1];
     
    for ( int i = 0 ; i < views.count+1 ; ++i )
    {
        UIView *v = [UIView new];
        [spaces addObject:v];
        [self addSubview:v];
         
        [v mas_makeConstraints:^(MASConstraintMaker *make) {
            make.width.equalTo(v.mas_height);
        }];
    }
     
     
    UIView *v0 = spaces[0];
     
    __weak __typeof(&*self)ws = self;
     
    [v0 mas_makeConstraints:^(MASConstraintMaker *make) {
        make.top.equalTo(ws.mas_top);
        make.centerX.equalTo(((UIView*)views[0]).mas_centerX);
    }];
     
    UIView *lastSpace = v0;
    for ( int i = 0 ; i < views.count; ++i )
    {
        UIView *obj = views[i];
        UIView *space = spaces[i+1];
         
        [obj mas_makeConstraints:^(MASConstraintMaker *make) {
            make.top.equalTo(lastSpace.mas_bottom);
        }];
         
        [space mas_makeConstraints:^(MASConstraintMaker *make) {
            make.top.equalTo(obj.mas_bottom);
            make.centerX.equalTo(obj.mas_centerX);
            make.height.equalTo(v0);
        }];
         
        lastSpace = space;
    }
     
    [lastSpace mas_makeConstraints:^(MASConstraintMaker *make) {
        make.bottom.equalTo(ws.mas_bottom);
    }];
}
@end

简单的来测试一下

UIView *sv11 = [UIView new];
UIView *sv12 = [UIView new];
UIView *sv13 = [UIView new];
UIView *sv21 = [UIView new];
UIView *sv31 = [UIView new];
sv11.backgroundColor = [UIColor redColor];
sv12.backgroundColor = [UIColor redColor];
sv13.backgroundColor = [UIColor redColor];
sv21.backgroundColor = [UIColor redColor];
sv31.backgroundColor = [UIColor redColor];
[sv addSubview:sv11];
[sv addSubview:sv12];
[sv addSubview:sv13];
[sv addSubview:sv21];
[sv addSubview:sv31];
//给予不同的大小 测试效果
[sv11 mas_makeConstraints:^(MASConstraintMaker *make) {
    make.centerY.equalTo(@[sv12,sv13]);
    make.centerX.equalTo(@[sv21,sv31]);
    make.size.mas_equalTo(CGSizeMake(40, 40));
}];
[sv12 mas_makeConstraints:^(MASConstraintMaker *make) {
    make.size.mas_equalTo(CGSizeMake(70, 20));
}];
[sv13 mas_makeConstraints:^(MASConstraintMaker *make) {
    make.size.mas_equalTo(CGSizeMake(50, 50));
}];
[sv21 mas_makeConstraints:^(MASConstraintMaker *make) {
    make.size.mas_equalTo(CGSizeMake(50, 20));
}];
[sv31 mas_makeConstraints:^(MASConstraintMaker *make) {
    make.size.mas_equalTo(CGSizeMake(40, 60));
}];
[sv distributeSpacingHorizontallyWith:@[sv11,sv12,sv13]];
[sv distributeSpacingVerticallyWith:@[sv11,sv21,sv31]];
[sv showPlaceHolderWithAllSubviews];
[sv hidePlaceHolder];

perfect! 简洁明了的达到了我们所要的效果

这里所用的技巧就是 使用空白的占位view来填充我们目标view的旁边 这点通过图上的空白标注可以看出来

小结

通过以上5个案例 我觉得已经把Masonry的常用功能介绍得差不多了 如果你觉得意犹未尽呢 请下载官方的demo来学习

总而言之 Masonry是一个非常优秀的autolayout库 能够节省大量的开发和学习时间 尤其适合我这种纯代码的iOSer 在iPhone6发布后引发的适配潮中 Masonry一定可以助你一臂之力 :)

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