module time // eq returns true if provided time is equal to time [inline] pub fn (t1 Time) eq(t2 Time) bool { if t1.unix == t2.unix && t1.microsecond == t2.microsecond { return true } return false } // ne returns true if provided time is not equal to time [inline] pub fn (t1 Time) ne(t2 Time) bool { return !t1.eq(t2) } // lt returns true if provided time is less than time [inline] pub fn (t1 Time) lt(t2 Time) bool { if t1.unix < t2.unix || (t1.unix == t2.unix && t1.microsecond < t2.microsecond) { return true } return false } // le returns true if provided time is less or equal to time [inline] pub fn (t1 Time) le(t2 Time) bool { return t1.lt(t2) || t1.eq(t2) } // gt returns true if provided time is greater than time [inline] pub fn (t1 Time) gt(t2 Time) bool { if t1.unix > t2.unix || (t1.unix == t2.unix && t1.microsecond > t2.microsecond) { return true } return false } // ge returns true if provided time is greater or equal to time [inline] pub fn (t1 Time) ge(t2 Time) bool { return t1.gt(t2) || t1.eq(t2) } // Time subtract using eperator overloading [inline] pub fn (lhs Time) - (rhs Time) Duration { lhs_micro := lhs.unix * 1000 * 1000 + u64(lhs.microsecond) rhs_micro := rhs.unix * 1000 * 1000 + u64(rhs.microsecond) return (i64(lhs_micro) - i64(rhs_micro)) * microsecond }