将Objective-C(#define)宏转换为Swift

Question

简单地说,我试图将#define宏转换为某种原生的Swift数据结构.只是不确定如何或什么样的.

细节

我想尝试将以下内容#define从Objective-C 复制到Swift.资料来源:JoeKun/FileMD5Hash

#define FileHashComputationContextInitialize(context, hashAlgorithmName)                    \
    CC_##hashAlgorithmName##_CTX hashObjectFor##hashAlgorithmName;                          \
    context.initFunction      = (FileHashInitFunction)&CC_##hashAlgorithmName##_Init;       \
    context.updateFunction    = (FileHashUpdateFunction)&CC_##hashAlgorithmName##_Update;   \
    context.finalFunction     = (FileHashFinalFunction)&CC_##hashAlgorithmName##_Final;     \
    context.digestLength      = CC_##hashAlgorithmName##_DIGEST_LENGTH;                     \
    context.hashObjectPointer = (uint8_t **)&hashObjectFor##hashAlgorithmName

显然#define在Swift中不存在; 因此我不是在寻找1:1的端口.更普遍的只是它的精神.

首先,我做了一个enum电话CryptoAlgorithm.为了这个问题,我只关心支持两种加密算法; 但是没有什么能阻止我进一步扩展它.

enum CryptoAlgorithm {
  case MD5, SHA1
}

到现在为止还挺好.现在实施了digestLength.

enum CryptoAlgorithm {
  case MD5, SHA1

  var digestLength: Int {
    switch self {
    case .MD5:
      return Int(CC_MD5_DIGEST_LENGTH)
    case .SHA1:
      return Int(CC_SHA1_DIGEST_LENGTH)
  }
}

再次,到目前为止一切顺利.现在实施了initFunction.

enum CryptoAlgorithm {
  case MD5, SHA1

  var digestLength: Int {
    switch self {
    case .MD5:
      return Int(CC_MD5_DIGEST_LENGTH)
    case .SHA1:
      return Int(CC_SHA1_DIGEST_LENGTH)
  }

  var initFunction: UnsafeMutablePointer<CC_MD5_CTX> -> Int32 {
    switch self {
    case .MD5:
      return CC_MD5_Init
    case .SHA1:
      return CC_SHA1_Init
    }
  }
}

崩溃和烧伤.'CC_MD5_CTX' is not identical to 'CC_SHA1_CTX'.问题是这CC_SHA1_Init是一个UnsafeMutablePointer<CC_SHA1_CTX> -> Int32.因此,两种返回类型不一样.

这是一个enum错误的方法？我应该使用泛型吗？如果是这样,通用应该如何制作？我应该提供这两个协议CC_MD5_CTX,并CC_SHA1_CTX再通过延长并返回？

欢迎所有建议(使用Objc桥除外).

Answer 1

我不知道我是否喜欢原始ObjC代码中的位置,因为它非常类型不安全.在Swift中,您只需要使所有类型的不安全更明确:

    var initFunction: UnsafeMutablePointer<Void> -> Int32 {
        switch self {
        case .MD5:
            return { CC_MD5_Init(UnsafeMutablePointer<CC_MD5_CTX>($0)) }
        case .SHA1:
            return { CC_SHA1_Init(UnsafeMutablePointer<CC_SHA1_CTX>($0)) }
        }
    }

采用协议的"Swift"方式越多,例如:

protocol CryptoAlgorithm {
    typealias Context
    init(_ ctx: UnsafeMutablePointer<Context>)
    var digestLength: Int { get }
}

然后你会有(未经测试)的东西:

struct SHA1: CryptoAlgorithm {
    typealias Context = CC_SHA1_CONTEXT
    private let context: UnsafeMutablePointer<Context>
    init(_ ctx: UnsafeMutablePointer<Context>) {
        CC_SHA1_Init(ctx) // This can't actually fail
        self.context = ctx // This is pretty dangerous.... but matches above. (See below)
    }
    let digestLength = Int(CC_SHA1_DIGEST_LENGTH)
}

但是我很想隐藏上下文,然后做到:

protocol CryptoAlgorithm {
    init()
    var digestLength: Int { get }
}

struct SHA1: CryptoAlgorithm {
    private var context = CC_SHA1_CTX()
    init() {
        CC_SHA1_Init(&context) // This is very likely redundant.
    }
    let digestLength = Int(CC_SHA1_DIGEST_LENGTH)
}

为什么你需要揭露它是CommonCrypto的事实？那你为什么要依赖调用者为你保留上下文？如果它超出范围,则稍后的调用将崩溃.我会坚持上下文.

更仔细地了解您的原始问题,请考虑这一点(编译,但未测试):

// Digests are reference types because they are stateful. Copying them may lead to confusing results.
protocol Digest: class {
    typealias Context
    var context: Context { get set }
    var length: Int { get }
    var digester: (UnsafePointer<Void>, CC_LONG, UnsafeMutablePointer<UInt8>) -> UnsafeMutablePointer<UInt8> { get }
    var updater: (UnsafeMutablePointer<Context>, UnsafePointer<Void>, CC_LONG) -> Int32 { get }
    var finalizer: (UnsafeMutablePointer<UInt8>, UnsafeMutablePointer<Context>) -> Int32 { get }
}

// Some helpers on all digests to make them act more Swiftly without having to deal with UnsafeMutablePointers.
extension Digest {
    func digest(data: [UInt8]) -> [UInt8] {
        return perform { digester(UnsafePointer<Void>(data), CC_LONG(data.count), $0) }
    }
    func update(data: [UInt8]) {
        updater(&context, UnsafePointer<Void>(data), CC_LONG(data.count))
    }
    func final() -> [UInt8] {
        return perform { finalizer($0, &context) }
    }
    // Helper that wraps up "create a buffer, update buffer, return buffer"
    private func perform(f: (UnsafeMutablePointer<UInt8>) -> ()) -> [UInt8] {
        var hash = [UInt8](count: length, repeatedValue: 0)
        f(&hash)
        return hash
    }
}

// Example of creating a new digest
final class SHA1: Digest {
    var context = CC_SHA1_CTX()
    let length = Int(CC_SHA1_DIGEST_LENGTH)
    let digester = CC_SHA1
    let updater = CC_SHA1_Update
    let finalizer = CC_SHA1_Final
}

// And here's what you change to make another one
final class SHA256: Digest {
    var context = CC_SHA256_CTX()
    let length = Int(CC_SHA256_DIGEST_LENGTH)
    let digester = CC_SHA256
    let updater = CC_SHA256_Update
    let finalizer = CC_SHA256_Final
}

// Type-eraser, so we can talk about arbitrary digests without worrying about the underlying associated type.
// See http://robnapier.net/erasure
// So now we can say things like `let digests = [AnyDigest(SHA1()), AnyDigest(SHA256())]`
// If this were the normal use-case, you could rename "Digest" as "DigestAlgorithm" and rename "AnyDigest" as "Digest"
// for convenience
final class AnyDigest: Digest {
    var context: Void = ()
    let length: Int
    let digester: (UnsafePointer<Void>, CC_LONG, UnsafeMutablePointer<UInt8>) -> UnsafeMutablePointer<UInt8>
    let updater: (UnsafeMutablePointer<Void>, UnsafePointer<Void>, CC_LONG) -> Int32
    let finalizer: (UnsafeMutablePointer<UInt8>, UnsafeMutablePointer<Void>) -> Int32

    init<D: Digest>(_ digest: D) {
        length = digest.length
        digester = digest.digester
        updater = { digest.updater(&digest.context, $1, $2) }
        finalizer = { (hash, _) in digest.finalizer(hash, &digest.context) }
    }
}