My Swift 3代码有一个Foundation Data字节集合(从SQlite BLOB读取)。数据的内部内容具有多个具有此结构的块:
{
UINT32 count; // number of points in this trkseg
UINT32 colour; // RGB colour of the line drawn for this trkseq
Double lat; // latitude of 1st point
Double long; // longitude of 1st point
Coord point[count-1] // array of points (2nd to last points)
}
typedef struct {
Float lat // difference in latitude of this point from the lat of the 1st point
Float long // difference in longitude of this point from the lat of the 1st point
} Coord;
这很容易在C和Java中解析。遗憾的是,我无法找到使用Swift 3解析此问题的最佳方法。我不会问你如何解析这个确切的数据布局,而只是为了解决使用Swift 3解析这些原始数据的建议和最佳实践。来自网络搜索和Apple文档我很困惑!
***答案 - 感谢Martin R让我走上正轨。我在这里添加了一些代码,以显示我如何解决这个问题以防万一。正如马丁所说,有很多方法可以解决这个问题。我的解决方案确保blob数据(无论主机端字节顺序如何)都将在网络端序(大端)中正确解析。
/// Parse the SQLite data blob to add GPS track segments
///
/// - Parameter data: GPS track information
private func addTracks(_ data: Data) {
// The data holds compressed GPX data. It has multiple track segments.
// It has a block of binary data per track segment with this structure:
// {
// UINT32 count; // number of points in this trkseg
// UINT32 colour; // RGB colour of the line drawn for this trkseq
// Double lat; // latitude of 1st point
// Double long; // longitude of 1st point
// Coord point[count-1] // array of points (2nd to last points)
// }
//
// typedef struct {
// Float lat // difference in latitude of this point from the lat of the 1st point
// Float long // difference in longitude of this point from the lat of the 1st point
// } Coord;
var dataCount = data.count // number of data bytes
var pointCount = 0 // counts coordinates per trkseg
var colour:UInt = 0
var lat:Double = 0.0
var long:Double = 0.0
var bigEndian = true
var i = 0
// From http://codereview.stackexchange.com/questions/114730/type-to-byte-array-conversion-in-swift
if (NSHostByteOrder() == NS_LittleEndian) {
bigEndian = false
}
while (dataCount >= 40) {
pointCount = Int(self.uint32Value(data: data.subdata(in: i..<i+4), isBigEndian: bigEndian))
i = i+4
if (pointCount < 2 || ((pointCount-1)*8 + 24 > dataCount)) {
print("ERROR, pointCount=\(pointCount)")
break
}
colour = UInt(self.uint32Value(data: data.subdata(in: i..<i+4), isBigEndian: bigEndian))
i = i+4
let firstLat = self.doubleValue(data: data.subdata(in: i..<i+8), isBigEndian: bigEndian)
i = i+8
let firstLong = self.doubleValue(data: data.subdata(in: i..<i+8), isBigEndian: bigEndian)
i = i+8
print("pointCount=\(pointCount) colour=\(colour) firstLat=\(firstLat) firstLong=\(firstLong)")
for _ in 1..<pointCount {
lat = firstLat - Double(self.floatValue(data: data.subdata(in: i..<i+4), isBigEndian: bigEndian))
i = i+4
long = firstLong - Double(self.floatValue(data: data.subdata(in: i..<i+4), isBigEndian: bigEndian))
i = i+4
print("lat=\(lat) long=\(long)")
}
dataCount = dataCount - 24 - (pointCount-1)*8;
}
}
private func floatValue(data: Data, isBigEndian: Bool) -> Float {
if (isBigEndian) {
return Float(bitPattern: UInt32(littleEndian: data.withUnsafeBytes { $0.pointee } ))
}
else {
return Float(bitPattern: UInt32(bigEndian: data.withUnsafeBytes { $0.pointee }))
}
}
private func doubleValue(data: Data, isBigEndian: Bool) -> Double {
if (isBigEndian) {
return Double(bitPattern: UInt64(littleEndian: data.withUnsafeBytes { $0.pointee } ))
}
else {
return Double(bitPattern: UInt64(bigEndian: data.withUnsafeBytes { $0.pointee } ))
}
}
private func uint32Value(data: Data, isBigEndian: Bool) -> UInt32 {
if (isBigEndian) {
return data.withUnsafeBytes{ $0.pointee }
}
else {
let temp: UInt32 = data.withUnsafeBytes{ $0.pointee }
return temp.bigEndian
}
}
答案 0 :(得分:1)
一种可能的方法是使用
public func withUnsafeBytes<ResultType, ContentType>(_ body: (UnsafePointer<ContentType>) throws -> ResultType) rethrows -> ResultType
访问和取消引用数据中字节的方法。
占位符类型ContentType可以从上下文中推断出来:
let color: UInt32 = data.subdata(in: 0..<4).withUnsafeBytes { $0.pointee }
// ...
let lat: Double = data.subdata(in: 8..<16).withUnsafeBytes { $0.pointee }
// ...
从Swift 4开始,您可以使用下标来提取数据:
let color: UInt32 = data[0..<4].withUnsafeBytes { $0.pointee }
// ...
let lat: Double = data[8..<16].withUnsafeBytes { $0.pointee }
// ...
如果所有字段都为其类型正确对齐,那么您可以 使用
public func load<T>(fromByteOffset offset: Int = default, as type: T.Type) -> T
来自UnsafeRawPointer:
data.withUnsafeBytes { (bytes: UnsafePointer<UInt8>) -> Void in
let rawPointer = UnsafeRawPointer(bytes)
let color = rawPointer.load(fromByteOffset: 0, as: UInt32.self)
// ...
let lat = rawPointer.load(fromByteOffset: 8, as: Double.self)
// ...
}
在较低级别,您可以使用memcpy再次使用
任意对齐的数据:
var color: UInt32 = 0
var lat: Double = 0
data.withUnsafeBytes { (bytes: UnsafePointer<UInt8>) -> Void in
memcpy(&color, bytes, 4)
// ...
memcpy(&lat, bytes + 8, 8)
// ...
}
我可能会使用第一种方法,除非性能是一种 问题,您可以使用第二个或第三个,具体取决于是否 保证所有字段都符合其类型。