Here is a possible solution for `UInt`

, `Int`

and `Double`

which works with
the full range of those types. It is written as extension methods
(now updated for Swift 2), but the same can be done with global functions.

Note that `arc4random_uniform()`

produces 32-bit numbers only, so that
can not be used if `Int`

/`UInt`

are 64-bit integers (which is the case
for all OS X machines and all newer iOS devices).

For `UInt`

we use the technique from https://stackoverflow.com/a/26550169/1187415
(which is just a Swift translation of https://stackoverflow.com/a/10989061/1187415).
The case where the range covers the full range of `UInt`

is treated separately.

```
extension UInt {
static func random(minValue minValue : UInt, maxValue : UInt) -> UInt {
precondition(minValue <= maxValue, "attempt to call random() with minValue > maxValue")
if minValue == UInt.min && maxValue == UInt.max {
// Random number in the full range of UInt:
var rnd : UInt = 0
arc4random_buf(&rnd, sizeofValue(rnd))
return rnd
} else {
// Compute random number in the range 0 ... (maxValue-minValue),
// using the technique from
// https://stackoverflow.com/a/26550169/1187415, https://stackoverflow.com/a/10989061/1187415
// and avoiding the "modulo bias problem":
let range = maxValue - minValue + 1
let randLimit = UInt.max - UInt.max % range
var rnd : UInt = 0
repeat {
arc4random_buf(&rnd, sizeofValue(rnd))
} while rnd >= randLimit
rnd = rnd % range
// Transform `rnd` back to the range minValue ... maxValue:
return minValue + rnd
}
}
}
```

Examples:

```
let u1 = UInt.random(minValue: 1000, maxValue: 2000)
let u2 = UInt.random(minValue: UInt.min, maxValue: UInt.max)
```

The case of signed integers can be reduced to the unsigned case using the
overflow operators and the `bitPattern:`

conversion:

```
extension Int {
static func random(minValue minValue : Int, maxValue : Int) -> Int {
precondition(minValue <= maxValue, "attempt to call random() with minValue > maxValue")
// Compute unsigned random number in the range 0 ... (maxValue-minValue):
let diff = UInt(bitPattern: maxValue &- minValue)
let rnd = UInt.random(minValue: 0, maxValue: diff)
// Transform `rnd` back to the range minValue ... maxValue:
return minValue &+ Int(bitPattern: rnd)
}
}
```

Examples:

```
let i1 = Int.random(minValue: -1000, maxValue: 1000)
let i2 = Int.random(minValue: Int.min, maxValue: Int.max)
```

Finally, a straight-forward implementation for `Double`

:

```
extension Double {
static func random(minValue minValue : Double, maxValue : Double) -> Double {
precondition(minValue <= maxValue, "attempt to call random() with minValue > maxValue")
// Random floating point number in the range 0.0 ... 1.0:
let rnd = Double(UInt.random(minValue: 0, maxValue: UInt.max))/Double(UInt.max)
// Scale to range minValue ... maxValue:
return minValue + rnd * (maxValue - minValue)
}
}
```

Example:

```
let d = Double.random(minValue: 10.5, maxValue: 123.5)
```

**Update for Swift 3:**

```
extension UInt {
static func random(minValue: UInt, maxValue: UInt) -> UInt {
precondition(minValue <= maxValue, "attempt to call random() with minValue > maxValue")
if minValue == UInt.min && maxValue == UInt.max {
// Random number in the full range of UInt:
var rnd: UInt = 0
arc4random_buf(&rnd, MemoryLayout.size(ofValue: rnd))
return rnd
} else {
// Compute random number in the range 0 ... (maxValue-minValue),
// using the technique from
// https://stackoverflow.com/a/26550169/1187415, https://stackoverflow.com/a/10989061/1187415
// and avoiding the "modulo bias problem":
let range = maxValue - minValue + 1
let randLimit = UInt.max - UInt.max % range
var rnd: UInt = 0
repeat {
arc4random_buf(&rnd, MemoryLayout.size(ofValue: rnd))
} while rnd >= randLimit
rnd = rnd % range
// Transform `rnd` back to the range minValue ... maxValue:
return minValue + rnd
}
}
}
extension Int {
static func random(minValue: Int, maxValue: Int) -> Int {
precondition(minValue <= maxValue, "attempt to call random() with minValue > maxValue")
// Compute unsigned random number in the range 0 ... (maxValue-minValue):
let diff = UInt(bitPattern: maxValue &- minValue)
let rnd = UInt.random(minValue: 0, maxValue: diff)
// Transform `rnd` back to the range minValue ... maxValue:
return minValue &+ Int(bitPattern: rnd)
}
}
extension Double {
static func random(minValue: Double, maxValue: Double) -> Double {
precondition(minValue <= maxValue, "attempt to call random() with minValue > maxValue")
// Random floating point number in the range 0.0 ... 1.0:
let rnd = Double(UInt.random(minValue: 0, maxValue: UInt.max))/Double(UInt.max)
// Scale to range minValue ... maxValue:
return minValue + rnd * (maxValue - minValue)
}
}
```