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civil.go
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civil.go
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// Copyright 2016 Google LLC
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// Package civil implements types for civil time, a time-zone-independent
// representation of time that follows the rules of the proleptic
// Gregorian calendar with exactly 24-hour days, 60-minute hours, and 60-second
// minutes.
//
// Because they lack location information, these types do not represent unique
// moments or intervals of time. Use time.Time for that purpose.
package civil
import (
"fmt"
"time"
)
// A Date represents a date (year, month, day).
//
// This type does not include location information, and therefore does not
// describe a unique 24-hour timespan.
type Date struct {
Year int // Year (e.g., 2014).
Month time.Month // Month of the year (January = 1, ...).
Day int // Day of the month, starting at 1.
}
// DateOf returns the Date in which a time occurs in that time's location.
func DateOf(t time.Time) Date {
var d Date
d.Year, d.Month, d.Day = t.Date()
return d
}
// ParseDate parses a string in RFC3339 full-date format and returns the date value it represents.
func ParseDate(s string) (Date, error) {
t, err := time.Parse("2006-01-02", s)
if err != nil {
return Date{}, err
}
return DateOf(t), nil
}
// String returns the date in RFC3339 full-date format.
func (d Date) String() string {
return fmt.Sprintf("%04d-%02d-%02d", d.Year, d.Month, d.Day)
}
// IsValid reports whether the date is valid.
func (d Date) IsValid() bool {
return DateOf(d.In(time.UTC)) == d
}
// In returns the time corresponding to time 00:00:00 of the date in the location.
//
// In is always consistent with time.Date, even when time.Date returns a time
// on a different day. For example, if loc is America/Indiana/Vincennes, then both
// time.Date(1955, time.May, 1, 0, 0, 0, 0, loc)
// and
// civil.Date{Year: 1955, Month: time.May, Day: 1}.In(loc)
// return 23:00:00 on April 30, 1955.
//
// In panics if loc is nil.
func (d Date) In(loc *time.Location) time.Time {
return time.Date(d.Year, d.Month, d.Day, 0, 0, 0, 0, loc)
}
// AddDays returns the date that is n days in the future.
// n can also be negative to go into the past.
func (d Date) AddDays(n int) Date {
return DateOf(d.In(time.UTC).AddDate(0, 0, n))
}
// DaysSince returns the signed number of days between the date and s, not including the end day.
// This is the inverse operation to AddDays.
func (d Date) DaysSince(s Date) (days int) {
// We convert to Unix time so we do not have to worry about leap seconds:
// Unix time increases by exactly 86400 seconds per day.
deltaUnix := d.In(time.UTC).Unix() - s.In(time.UTC).Unix()
return int(deltaUnix / 86400)
}
// Before reports whether d1 occurs before d2.
func (d1 Date) Before(d2 Date) bool {
if d1.Year != d2.Year {
return d1.Year < d2.Year
}
if d1.Month != d2.Month {
return d1.Month < d2.Month
}
return d1.Day < d2.Day
}
// After reports whether d1 occurs after d2.
func (d1 Date) After(d2 Date) bool {
return d2.Before(d1)
}
// IsZero reports whether date fields are set to their default value.
func (d Date) IsZero() bool {
return (d.Year == 0) && (int(d.Month) == 0) && (d.Day == 0)
}
// MarshalText implements the encoding.TextMarshaler interface.
// The output is the result of d.String().
func (d Date) MarshalText() ([]byte, error) {
return []byte(d.String()), nil
}
// UnmarshalText implements the encoding.TextUnmarshaler interface.
// The date is expected to be a string in a format accepted by ParseDate.
func (d *Date) UnmarshalText(data []byte) error {
var err error
*d, err = ParseDate(string(data))
return err
}
// A Time represents a time with nanosecond precision.
//
// This type does not include location information, and therefore does not
// describe a unique moment in time.
//
// This type exists to represent the TIME type in storage-based APIs like BigQuery.
// Most operations on Times are unlikely to be meaningful. Prefer the DateTime type.
type Time struct {
Hour int // The hour of the day in 24-hour format; range [0-23]
Minute int // The minute of the hour; range [0-59]
Second int // The second of the minute; range [0-59]
Nanosecond int // The nanosecond of the second; range [0-999999999]
}
// TimeOf returns the Time representing the time of day in which a time occurs
// in that time's location. It ignores the date.
func TimeOf(t time.Time) Time {
var tm Time
tm.Hour, tm.Minute, tm.Second = t.Clock()
tm.Nanosecond = t.Nanosecond()
return tm
}
// ParseTime parses a string and returns the time value it represents.
// ParseTime accepts an extended form of the RFC3339 partial-time format. After
// the HH:MM:SS part of the string, an optional fractional part may appear,
// consisting of a decimal point followed by one to nine decimal digits.
// (RFC3339 admits only one digit after the decimal point).
func ParseTime(s string) (Time, error) {
t, err := time.Parse("15:04:05.999999999", s)
if err != nil {
return Time{}, err
}
return TimeOf(t), nil
}
// String returns the date in the format described in ParseTime. If Nanoseconds
// is zero, no fractional part will be generated. Otherwise, the result will
// end with a fractional part consisting of a decimal point and nine digits.
func (t Time) String() string {
s := fmt.Sprintf("%02d:%02d:%02d", t.Hour, t.Minute, t.Second)
if t.Nanosecond == 0 {
return s
}
return s + fmt.Sprintf(".%09d", t.Nanosecond)
}
// IsValid reports whether the time is valid.
func (t Time) IsValid() bool {
// Construct a non-zero time.
tm := time.Date(2, 2, 2, t.Hour, t.Minute, t.Second, t.Nanosecond, time.UTC)
return TimeOf(tm) == t
}
// IsZero reports whether time fields are set to their default value.
func (t Time) IsZero() bool {
return (t.Hour == 0) && (t.Minute == 0) && (t.Second == 0) && (t.Nanosecond == 0)
}
// MarshalText implements the encoding.TextMarshaler interface.
// The output is the result of t.String().
func (t Time) MarshalText() ([]byte, error) {
return []byte(t.String()), nil
}
// UnmarshalText implements the encoding.TextUnmarshaler interface.
// The time is expected to be a string in a format accepted by ParseTime.
func (t *Time) UnmarshalText(data []byte) error {
var err error
*t, err = ParseTime(string(data))
return err
}
// A DateTime represents a date and time.
//
// This type does not include location information, and therefore does not
// describe a unique moment in time.
type DateTime struct {
Date Date
Time Time
}
// Note: We deliberately do not embed Date into DateTime, to avoid promoting AddDays and Sub.
// DateTimeOf returns the DateTime in which a time occurs in that time's location.
func DateTimeOf(t time.Time) DateTime {
return DateTime{
Date: DateOf(t),
Time: TimeOf(t),
}
}
// ParseDateTime parses a string and returns the DateTime it represents.
// ParseDateTime accepts a variant of the RFC3339 date-time format that omits
// the time offset but includes an optional fractional time, as described in
// ParseTime. Informally, the accepted format is
// YYYY-MM-DDTHH:MM:SS[.FFFFFFFFF]
// where the 'T' may be a lower-case 't'.
func ParseDateTime(s string) (DateTime, error) {
t, err := time.Parse("2006-01-02T15:04:05.999999999", s)
if err != nil {
t, err = time.Parse("2006-01-02t15:04:05.999999999", s)
if err != nil {
return DateTime{}, err
}
}
return DateTimeOf(t), nil
}
// String returns the date in the format described in ParseDate.
func (dt DateTime) String() string {
return dt.Date.String() + "T" + dt.Time.String()
}
// IsValid reports whether the datetime is valid.
func (dt DateTime) IsValid() bool {
return dt.Date.IsValid() && dt.Time.IsValid()
}
// In returns the time corresponding to the DateTime in the given location.
//
// If the time is missing or ambigous at the location, In returns the same
// result as time.Date. For example, if loc is America/Indiana/Vincennes, then
// both
// time.Date(1955, time.May, 1, 0, 30, 0, 0, loc)
// and
// civil.DateTime{
// civil.Date{Year: 1955, Month: time.May, Day: 1}},
// civil.Time{Minute: 30}}.In(loc)
// return 23:30:00 on April 30, 1955.
//
// In panics if loc is nil.
func (dt DateTime) In(loc *time.Location) time.Time {
return time.Date(dt.Date.Year, dt.Date.Month, dt.Date.Day, dt.Time.Hour, dt.Time.Minute, dt.Time.Second, dt.Time.Nanosecond, loc)
}
// Before reports whether dt1 occurs before dt2.
func (dt1 DateTime) Before(dt2 DateTime) bool {
return dt1.In(time.UTC).Before(dt2.In(time.UTC))
}
// After reports whether dt1 occurs after dt2.
func (dt1 DateTime) After(dt2 DateTime) bool {
return dt2.Before(dt1)
}
// IsZero reports whether datetime fields are set to their default value.
func (dt DateTime) IsZero() bool {
return dt.Date.IsZero() && dt.Time.IsZero()
}
// MarshalText implements the encoding.TextMarshaler interface.
// The output is the result of dt.String().
func (dt DateTime) MarshalText() ([]byte, error) {
return []byte(dt.String()), nil
}
// UnmarshalText implements the encoding.TextUnmarshaler interface.
// The datetime is expected to be a string in a format accepted by ParseDateTime
func (dt *DateTime) UnmarshalText(data []byte) error {
var err error
*dt, err = ParseDateTime(string(data))
return err
}