How to convert bytes to a float value in swift?

<44fa0000> is the big-endian memory representation of the binary floating point number 2000.0. To get the number back from the data, you have to read it into an UInt32 first, convert from big-endian to host byteorder, and then cast the result to a Float.

In Swift 2 that would be

func floatValueFromData(data: NSData) -> Float {
    return unsafeBitCast(UInt32(bigEndian: UnsafePointer(data.bytes).memory), Float.self)
}

Example:

let bytes: [UInt8] =  [0x44, 0xFA, 0x00, 0x00]
let data = NSData(bytes: bytes, length: 4)

print(data) // <44fa0000>
let f = floatValueFromData(data)
print(f) // 2000.0

In Swift 3 you would use Data instead of NSData, and the unsafeBitCast can be replaced by the Float(bitPattern:) initializer:

func floatValue(data: Data) -> Float {
    return Float(bitPattern: UInt32(bigEndian: data.withUnsafeBytes { $0.pointee } ))
}

In Swift 5 the withUnsafeBytes() method of Data calls the closure with an (untyped) UnsafeRawBufferPointer, and you can load() the value from the raw memory:

func floatValue(data: Data) -> Float {
    return Float(bitPattern: UInt32(bigEndian: data.withUnsafeBytes { $0.load(as: UInt32.self) }))
}

Here is some swift 5:

let data = Data([0x44, 0xfa, 0x00, 0x00]) // 0x44fa0000
let floatNb:Float = data.withUnsafeBytes { $0.load(as: Float.self) }

// note that depending on the input endianess, you could add .reversed() to data
let floatNb:Float = data.reversed().withUnsafeBytes { $0.load(as: Float.self) }

WARNING: this sample throws if your Data is under 4 bytes..

.

Safe Data extension:

extension Data {
    enum Endianess {
        case little
        case big
    }

    func toFloat(endianess: Endianess = .little) -> Float? {
        guard self.count <= 4 else { return nil }

        switch endianess {
        case .big:
            let data = [UInt8](repeating: 0x00, count: 4-self.count) + self
            return data.withUnsafeBytes { $0.load(as: Float.self) }
        case .little:
            let data = self + [UInt8](repeating: 0x00, count: 4-self.count)
            return data.reversed().withUnsafeBytes { $0.load(as: Float.self) }
        }
    }
}

Tests:

let opData        = Data([0x44, 0xFA, 0x00, 0x00])
let nb42          = Data([0x42, 0x28])
let nb42bigEndian = Data([0x28, 0x42])
let tooBig        = Data([0x44, 0xFA, 0x00, 0x00, 0x00])

print("opData:        \(opData.toFloat())")
print("nb42:          \(nb42.toFloat())")
print("nb42bigEndian: \(nb42bigEndian.toFloat(endianess: .big))")
print("tooBig:        \(tooBig.toFloat())")

you may find a faster way but this was good enough for my needs