In Go language, time packages supplies functionality for determining as well as viewing time. The Time.Unix() function in Go language is used to yield “t” as a Unix time that is the number of seconds passed from January 1, 1970, in UTC and the output here doesn’t rely upon the location connected with t. Moreover, this function is defined under the time package. Here, you need to import the “time” package in order to use these functions.
Syntax:
func (t Time) Unix() int64Here, “t” is the stated time.
Note: A Unix like operating system frequently stores time as a 32-bit count of seconds. And on the other hand, the Unix() method here returns a 64-bit value so it’s period of validity is for billions of years into the past or the future.
Return value: It returns “t” as a Unix time which is of type int64.
Example 1:
// Golang program to illustrate the usage of
// Time.Unix() function
// Including main package
package main
// Importing fmt and time
import
"fmt"
import
"time"
// Calling main
func main() {
// Defining t in UTC for Unix method
t :=
time
.Date(2020, 11, 14, 11, 30, 32, 0,
time
.UTC)
// Calling Unix method
unix := t.Unix()
// Prints output
fmt.Printf(
"%v\n"
, unix)
}
Output:
1605353432Example 2:
// Golang program to illustrate the usage of
// Time.Unix() function
// Including main package
package main
// Importing fmt and time
import
"fmt"
import
"time"
// Calling main
func main() {
// Defining t in UTC for Unix method
t :=
time
.Date(2013, 11, 14, 1e3, 3e5, 7e1, 0,
time
.UTC)
// Calling Unix method
unix := t.Unix()
// Prints output
fmt.Printf(
"%v\n"
, unix)
}
Output:
1405987270Here, the time “t” stated in the above code has values which contain constant “e” which are converted in usual range while conversion.