ios开发常用的五种数据存储方式:
- plist
- NSUserDefaults
- NSKeyedArchiver
- FMDB
- CoreData
这篇文章我们主要回顾NSKeyedArchiver的使用
NSKeyedArchiver、NSKeyedUnarchiver
1.数据从内存存储到闪存上,这个过程称为归档,是将数据持久化的一种方式.
2.想要归档的数据对象,需要遵守NSCoding协议,并且该对象对应的类必须提供encodeWithCoder:和initWithCoder:方法.
3.归档的缺点:归档的形式来保存数据,只能一次性归档保存以及一次性解压,所以只能针对小量数据,而且对数据操作比较笨拙,即如果想改动数据的某一小部分,还是需要解压整个数据或者归档整个数据
4.序列化与反序列化:将一个Objective-C对象转换成NSData的操作叫做对象的序列化;而将一个NSData转换成Objective-C对象的操作叫做对象的反序列化. 一个Objective-C对象需要通过实现NSCoding协议以便支持序列化与反序列化.
下面我们根据之前介绍的plist以及NSUserDefault来继续完善我们的demo(DataStorageDemo)
1.想要归档,就需要遵守NSCoding协议
我们做用户登录的时候需要存储用户信息,我们给它两个参数:用户名与密码
#import <Foundation/Foundation.h>
//要实现对数据模型的归档,需要我们实现NScoding协议,NScoping(copy协议是为了模型数据可以复制,对于归档而言,不是必须要实现)
@interface User : NSObject<NSCoding,NSCopying>
@property (nonatomic, strong) NSString *userName;
@property (nonatomic, strong) NSString *userPassWord;
@end
并且该对象对应的类必须提供encodeWithCoder:和initWithCoder:方法
- (void) encodeWithCoder:(NSCoder *)aCoder
{
[aCoder encodeObject:self.userName forKey:kUserName];
[aCoder encodeObject:self.userPassWord forKey:kUserPassWord];
}
- (id) initWithCoder:(NSCoder *)aDecoder
{
if (self = [super init]) {
self.userName = [aDecoder decodeObjectForKey:kUserName];
self.userPassWord = [aDecoder decodeObjectForKey:kUserPassWord];
}
return self;
}
如果你想复制数据模型,还需要实现-(id)copyWithZone:(NSZone *)zone
-(id)copyWithZone:(NSZone *)zone
{
User *user = [[self class]allocWithZone:zone];
user.userName = [self.userName copyWithZone:zone];
user.userPassWord = [self.userPassWord copyWithZone:zone];
return user;
}
2. 存:
你可以直接存储对象
//存储用户信息
User *user = [[User alloc]init];
user.userName = self.countNameTextfield.text;
user.userPassWord = self.passwordTextfield.text;
[NSKeyedArchiver archiveRootObject:user toFile:[self getFilePath]];
也可以序列化后(转成NSData)再写入
//存储用户信息
User *user = [[User alloc]init];
user.userName = self.countNameTextfield.text;
user.userPassWord = self.passwordTextfield.text;
NSMutableData *data = [[NSMutableData alloc]init];
NSKeyedArchiver *archiver = [[NSKeyedArchiver alloc]initForWritingWithMutableData:data];
[archiver encodeObject:user forKey:@"user"];
[archiver finishEncoding];
NSLog(@"存储路径:%@",[self getFilePath]);
[data writeToFile:[self getFilePath] atomically:YES];
路径:
-(NSString *)getFilePath
{
return [[NSSearchPathForDirectoriesInDomains(NSDocumentDirectory, NSUserDomainMask, YES)objectAtIndex:0] stringByAppendingPathComponent:@"User"];
}
3. 取:
你可以直接读取存储的对象
if ([[NSFileManager defaultManager]fileExistsAtPath:[self getFilePath]]) {
User *user = [NSKeyedUnarchiver unarchiveObjectWithFile:[self getFilePath]];
NSLog(@"%@---%@",self.user.userName,self.user.userPassWord);
}
相应的,如果你序列化了这个对象(NSData),你就需要反序列化进行读数
if ([[NSFileManager defaultManager]fileExistsAtPath:[self getFilePath]]) {
NSData *data = [[NSData alloc]initWithContentsOfFile:[self getFilePath]];
NSKeyedUnarchiver *unarchiver = [[NSKeyedUnarchiver alloc]initForReadingWithData:data];
User *user = [unarchiver decodeObjectForKey:@"user"];
[unarchiver finishDecoding];
NSLog(@"%@---%@",user.userName,user.userPassword);
}
4. 删
删除很简单
if ([defaultFileManager fileExistsAtPath:[self getFilePath]]) {
[defaultFileManager removeItemAtPath:[self getFilePath] error:nil];
}
5. NSUserDefaults存储自定义类
之所以在这里讲解这个知识点,是因为NSUserDefaults只能存储简单数据类型,如一个User对象,需要遵循NSCoding协议序列化成NSData之后才能使用NSUserDefaults存储
(1). 存
User *user = [[User alloc]init];
user.userName = @"123456";
user.userPassword = @"123456";
NSData *data = [NSKeyedArchiver archivedDataWithRootObject:user];
NSUserDefaults *defaults = [NSUserDefaults standardUserDefaults];
[defaults setObject:data forKey:@"user"];
(2). 取
NSUserDefaults *defaults = [NSUserDefaults standardUserDefaults];
NSdData *data = [defaults objectForKey:@"user"];
User *user = [NSKeyedUnarchiver unarchiveObjectWithData:data];
NSLog(@"%@---%@",user.userName,user.userPassword);
