I am taking the current time, in UTC, and putting it in nanaoseconds and then I need to take the nanoseconds and go back to a date in local time.

I am able to do get the time to nanoseconds and then back to a date string but the time gets convoluted when I go from a string to date.

//Date to milliseconds
func currentTimeInMiliseconds() -> Int! {
    let currentDate = NSDate()
    let dateFormatter = DateFormatter()
    dateFormatter.dateFormat = format
    dateFormatter.timeZone = NSTimeZone(name: "UTC") as TimeZone!
    let date = dateFormatter.date(from: dateFormatter.string(from: currentDate as Date))
    let nowDouble = date!.timeIntervalSince1970
    return Int(nowDouble*1000)

//Milliseconds to date
extension Int {
    func dateFromMilliseconds(format:String) -> Date {
        let date : NSDate! = NSDate(timeIntervalSince1970:Double(self) / 1000.0)
        let dateFormatter = DateFormatter()
        dateFormatter.dateFormat = format
        dateFormatter.timeZone = TimeZone.current
        let timeStamp = dateFormatter.string(from: date as Date)
        let formatter = DateFormatter()
        formatter.dateFormat = format
        return ( formatter.date( from: timeStamp ) )!

The timestamp is correct but the date returned isn't.

  • 4
    You are converting a date to a string and right back to the same date which seems to be useless. Once again, what is the used date format format? Actually Int(Date().timeIntervalSince1970 * 1000) can replace the entire function. NSDate is just a double value without considering a time zone
    – vadian
    Commented Oct 19, 2016 at 14:58
  • 5
    You seem to use nanoseconds in your question when you appear to mean milliseconds. There are 1 million nanoseconds in a millisecond, so it's not an inconsequential mistake.
    – Caleb
    Commented Oct 4, 2018 at 2:39

10 Answers 10


I don't understand why you're doing anything with strings...

extension Date {
    var millisecondsSince1970:Int64 {
        Int64((self.timeIntervalSince1970 * 1000.0).rounded())
    init(milliseconds:Int64) {
        self = Date(timeIntervalSince1970: TimeInterval(milliseconds) / 1000)

Date().millisecondsSince1970 // 1476889390939
Date(milliseconds: 0) // "Dec 31, 1969, 4:00 PM" (PDT variant of 1970 UTC)
  • I am doing the string because i need millisecondsSince1970 to be in UTC and init(milliseconds:Int) to be put back in local time. Commented Oct 19, 2016 at 15:09
  • 3
    Date objects are always in UTC. Those values in my example are UTC (note how the description method then renders the UTC epoch beginning in PDT). Commented Oct 19, 2016 at 15:11
  • 4
    Better to do init(milliseconds:Double) instead of Int or else you will lose the milliseconds when you convert back.
    – dickyj
    Commented May 4, 2017 at 6:37
  • 1
    davis: If I understand correctly, the timeIntervalSince1970 is a double and therefore has millisecond precision in it. The multiplier and cast are there to convert this into a int. Commented May 3, 2018 at 22:01
  • @davis It doesn't loose the millisecond precision, but it does loose sub-millisecond precision. Unless you absolutely need to convert the date to an integer, consider using my answer. Commented Aug 27, 2020 at 9:12

As @Travis Solution works but in some cases

var millisecondsSince1970:Int WILL CAUSE CRASH APPLICATION ,

with error

Double value cannot be converted to Int because the result would be greater than Int.max if it occurs Please update your answer with Int64

Here is Updated Answer

extension Date {
 var millisecondsSince1970:Int64 {
        return Int64((self.timeIntervalSince1970 * 1000.0).rounded()) 

    init(milliseconds:Int) {
        self = Date(timeIntervalSince1970: TimeInterval(milliseconds / 1000))

About Int definitions.

On 32-bit platforms, Int is the same size as Int32, and on 64-bit platforms, Int is the same size as Int64.

Generally, I encounter this problem in iPhone 5, which runs in 32-bit env. New devices run 64-bit env now. Their Int will be Int64.

Hope it is helpful to someone who also has same problem

  • 3
    Why would that error happen? Time interval since 1970 is a 32 bit number. At least until we get to this: en.wikipedia.org/wiki/Year_2038_problem
    – DoesData
    Commented Dec 21, 2017 at 3:55
  • 3
    @DoesData If you see we are multiplying number with 1000. this causes out of the range of Int32 Commented Jan 23, 2018 at 9:10
  • 3
    Some old iOS device run in 32-bit env. It's Int is Int32. But new iOS device, ex: iPhone 6, it's Int is Int64. So, 32-bit problem may cause crash in old iOS devices.
    – AechoLiu
    Commented Oct 2, 2018 at 1:50

@Travis solution is right, but it loses milliseconds when a Date is generated. I have added a line to include the milliseconds into the date:

If you don't need this precision, use the Travis solution because it will be faster.

extension Date {

    func toMillis() -> Int64! {
        return Int64(self.timeIntervalSince1970 * 1000)

    init(millis: Int64) {
        self = Date(timeIntervalSince1970: TimeInterval(millis / 1000))
        self.addTimeInterval(TimeInterval(Double(millis % 1000) / 1000 ))

//Date to milliseconds
func currentTimeInMiliseconds() -> Int {
    let currentDate = Date()
    let since1970 = currentDate.timeIntervalSince1970
    return Int(since1970 * 1000)

//Milliseconds to date
extension Int {
    func dateFromMilliseconds() -> Date {
        return Date(timeIntervalSince1970: TimeInterval(self)/1000)

I removed seemingly useless conversion via string and all those random !.

  • This would be great but I need currentTimeInMilliseconds to convert the local time to UTC and I need dateFromMilliseconds to convert from UTC to local time Commented Oct 19, 2016 at 15:05
  • Timestamp is in UTC already.. > The number of seconds from the reference date (00:00:00 **UTC** on 1 January 1970) Commented Oct 19, 2016 at 15:06
  • You will not lose millisecond precision, but you will lose sub-millisecond precision. Unless the time interval absolutely needs to be represented as an integer, consider my answer below instead. Commented Aug 27, 2020 at 9:23
  • @PeterSchorn, yep, this code in the answer was just a cleaned up version of the code from the question. The question had Int, therefore the answer has Int too. Commented Aug 27, 2020 at 12:26
let dateTimeStamp = NSDate(timeIntervalSince1970:Double(currentTimeInMiliseconds())/1000)  //UTC time  //YOUR currentTimeInMiliseconds METHOD
let dateFormatter = NSDateFormatter()
dateFormatter.timeZone = NSTimeZone.localTimeZone() 
dateFormatter.dateFormat = "yyyy-MM-dd"
dateFormatter.dateStyle = NSDateFormatterStyle.FullStyle
dateFormatter.timeStyle = NSDateFormatterStyle.ShortStyle

let strDateSelect = dateFormatter.stringFromDate(dateTimeStamp)
print("Local Time", strDateSelect) //Local time

let dateFormatter2 = NSDateFormatter()
dateFormatter2.timeZone = NSTimeZone(name: "UTC") as NSTimeZone!
dateFormatter2.dateFormat = "yyyy-MM-dd"

let date3 = dateFormatter.dateFromString(strDateSelect)

@Prashant Tukadiya answer works. But if you want to save the value in UserDefaults and then compare it to other date you get yout int64 truncated so it can cause problems. I found a solution.

Swift 4:

You can save int64 as string in UserDefaults:

let value: String(Date().millisecondsSince1970)
let stringValue = String(value)
UserDefaults.standard.set(stringValue, forKey: "int64String")

Like that you avoid Int truncation.

And then you can recover the original value:

let int64String = UserDefaults.standard.string(forKey: "int64String")
let originalValue = Int64(int64String!)

This allow you to compare it with other date values:

let currentTime = Date().millisecondsSince1970
let int64String = UserDefaults.standard.string(forKey: "int64String")
let originalValue = Int64(int64String!) ?? 0 

if currentTime < originalValue {
     return false
} else {
     return true

Hope this helps someone who has same problem

  • Date().millisecondsSince1970 is showing as unresolved Commented Jun 14, 2020 at 23:12
  • @javadba try Date().timeIntervalSince1970. The return value is a Double that represents the number of seconds since 1970 – it is precise to 'sub-millisecond precision'. See here: developer.apple.com/documentation/foundation/timeinterval
    – Jase
    Commented Jul 7, 2020 at 1:25
  • @javadba Date().millisecondsSince1970 is a custom extension in the posts for this question. It's not in Foundation. Commented Aug 27, 2020 at 9:00

Simple one-line code to get time token in UInt64

let time = UInt64(Date().timeIntervalSince1970 * 1000)

print(time) <----- prints time in UInt64

Additional tip:

For timestamp with 10 Digit milliseconds since 1970 for API call then

let timeStamp = Date().timeIntervalSince1970

print(timeStamp) <-- prints current time stamp

Here's a simple solution in Swift 5/iOS 13.

extension Date {
    func toMilliseconds() -> Int64 {
        Int64(self.timeIntervalSince1970 * 1000)

    init(milliseconds:Int) {
        self = Date().advanced(by: TimeInterval(integerLiteral: Int64(milliseconds / 1000)))

This assumes you have calculated the difference between UTC time and local time and adjusted and accounted for in the milliseconds. For that, use Calendar.

var cal = Calendar.current
cal.timeZone = TimeZone(abbreviation: "UTC")!
let difference = cal.compare(dateGiven, to: date, toGranularity: .nanosecond)

Watch out if you are going to compare dates after the conversion!

For instance, I got simulator's asset with date as TimeInterval(366144731.9), converted to milliseconds Int64(1344451931900) and back to TimeInterval(366144731.9000001), using

func convertToMilli(timeIntervalSince1970: TimeInterval) -> Int64 {
    return Int64(timeIntervalSince1970 * 1000)

func convertMilliToDate(milliseconds: Int64) -> Date {
    return Date(timeIntervalSince1970: (TimeInterval(milliseconds) / 1000))

I tried to fetch the asset by creationDate and it doesn't find the asset, as you could figure, the numbers are not the same.

I tried multiple solutions to reduce double's decimal precision, like round(interval*1000)/1000, use NSDecimalNumber, etc... with no success.

I ended up fetching by interval -1 < creationDate < interval + 1, instead of creationDate == Interval.

There may be a better solution!?


Unless you absolutely have to convert the date to an integer, consider using a Double instead to represent the time interval. After all, this is the type that timeIntervalSince1970 returns. All of the answers that convert to integers loose sub-millisecond precision, but this solution is much more accurate (although you will still lose some precision due to floating-point imprecision).

public extension Date {
    /// The interval, in milliseconds, between the date value and
    /// 00:00:00 UTC on 1 January 1970.
    /// Equivalent to `self.timeIntervalSince1970 * 1000`.
    var millisecondsSince1970: Double {
        return self.timeIntervalSince1970 * 1000

     Creates a date value initialized relative to 00:00:00 UTC
     on 1 January 1970 by a given number of **milliseconds**.
     equivalent to
     self.init(timeIntervalSince1970: TimeInterval(milliseconds) / 1000)
     - Parameter millisecondsSince1970: A time interval in milliseconds.
    init(millisecondsSince1970 milliseconds: Double) {
        self.init(timeIntervalSince1970: TimeInterval(milliseconds) / 1000)


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