**Swift CMTime**

When you operate time it is important to save accuracy. `CMTime`

propose you to use two integers(*value* and *timescale*) to present a float number. Additional functions simplify CMTime mathematics in contrast to float operations

Important `CMTime`

properties are:

- value
- timescale - number of equal parts of
**one second**
- seconds

The formula is

```
Int64 value(numerator) / Int32 timescale(denominator) = Float64 seconds
//for example
//value 1 / timescale 10 = 1/10(0.1) seconds
```

Next example shows next items:

- You can create CMTime using constructor(init()) or CMTimeMake function
- time.seconds is the same as CMTimeGetSeconds(time)
- mathematics with CMTime - CMTimeCompare, CMTimeAdd...

```
import CoreMedia
func testTime() {
let value: Int64 = 1
let timescale: Int32 = 10
let secondsResult: Double = 0.1 // 1/10 sec
let time1: CMTime = CMTime(value: value, timescale: timescale)
let time2: CMTime = CMTime(seconds: secondsResult, preferredTimescale: timescale)
let time3: CMTime = CMTimeMake(value: value, timescale: timescale)
let time4: CMTime = CMTimeMakeWithSeconds(secondsResult, preferredTimescale: timescale)
let seconds1: Double = time1.seconds
let seconds2: Float64 = CMTimeGetSeconds(time1)
assert(seconds1 == seconds2)
assert(seconds1 == secondsResult)
assert(time1 == time2)
assert(time1 == time3)
assert(time1 == time4)
assert(CMTimeCompare(time1, time2) == 0)
}
```

**Create CMTime using seconds**

You are able to create `CMTime`

using *value* and *timescale* where *seconds* will be calculated(value / timescale). This approach is clear but also you are able to create `CMTime`

using *seconds* and *preferredTimescale*. In this case your *value* and *seconds* can be different and be recalculated to satisfy formula(*value* must be Int64) that is why it can be rounded, as a result *seconds* also is recalculated

```
//preset - seconds: 0.1, preferredTimescale: 10, expect value == 1
//result - seconds: 0.1, value: 1
let time5: CMTime = CMTime(seconds: 0.1, preferredTimescale: 10)
assert(time5.value == 1)
assert(time5.seconds == 0.1)
//preset - seconds: 0.1, preferredTimescale: 1, expect value == 0.1
//result - seconds: 0, value: 0
let time6: CMTime = CMTime(seconds: 0.1, preferredTimescale: 1)
assert(time6.value == 0)
assert(time6.seconds == 0)
//preset - seconds: 1.31, preferredTimescale: 10, expect value == 13.1
//result - seconds: 1.3, value: 13
let time7: CMTime = CMTime(seconds: 1.31, preferredTimescale: 10)
assert(time7.value == 13)
assert(time7.seconds == 1.3)
```

`CMTimeMake(1, 48)`

to run a block of code every 1/48 of a second ie 1 block per frame