The checkWorkHours(dateTime time.Time)
function accepts a time.Time object and returns true
or false
if the time given is within work hours.
Includes a function to test the outputs of your function.
package main
import (
"fmt"
"time"
)
func main() {
testCheckWorkHours()
}
func checkWorkHours(dateTime time.Time) bool {
beginWorkHour := 8
endWorkHour := 18
currentHour := dateTime.Hour()
currentDay := dateTime.Weekday()
if currentDay > 0 && currentDay < 6 {
if currentHour < endWorkHour && currentHour >= beginWorkHour {
return true
}
}
return false
}
func testCheckWorkHours() {
// Tests the function
timeFormat := "2006-01-02 15:04:05 -0700 MST"
// True Cases
dateTime, _ := time.Parse(timeFormat, "2017-01-16 15:00:00 -0500 EST")
fmt.Println(fmt.Sprintf("Monday @ 3pm should be True: %t", checkWorkHours(dateTime)))
dateTime, _ = time.Parse(timeFormat, "2017-01-16 17:59:59 -0500 EST")
fmt.Println(fmt.Sprintf("Friday @ 5:59pm should be True: %t", checkWorkHours(dateTime)))
// False Cases
dateTime, _ = time.Parse(timeFormat, "2017-01-15 15:00:00 -0500 EST")
fmt.Println(fmt.Sprintf("Sunday @ 3pm should be False: %t", checkWorkHours(dateTime)))
dateTime, _ = time.Parse(timeFormat, "2017-01-13 18:00:00 -0500 EST")
fmt.Println(fmt.Sprintf("Friday @ 6pm should be False: %t", checkWorkHours(dateTime)))
dateTime, _ = time.Parse(timeFormat, "2017-01-17 07:00:00 -0500 EST")
fmt.Println(fmt.Sprintf("Tuesday @ 7am should be False: %t", checkWorkHours(dateTime)))
}
package main import "fmt" func main() { age := 28 * 365 / 687 fmt.Print(fmt.Sprintf("My age on the surface of Mars is %d years old.", age)) }
- package main
- import "fmt"
- func main() {
fmt.Print("My age on the surface of Mars is ")fmt.Print(28 * 365 / 687)fmt.Print(" years old.")- age := 28 * 365 / 687
- fmt.Print(fmt.Sprintf("My age on the surface of Mars is %d years old.", age))
- }