/* * MinIO Cloud Storage, (C) 2019 MinIO, Inc. * * 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 sql import ( "time" ) const ( layoutYear = "2006T" layoutMonth = "2006-01T" layoutDay = "2006-01-02T" layoutMinute = "2006-01-02T15:04Z07:00" layoutSecond = "2006-01-02T15:04:05Z07:00" layoutNanosecond = "2006-01-02T15:04:05.999999999Z07:00" ) var ( tformats = []string{ layoutYear, layoutMonth, layoutDay, layoutMinute, layoutSecond, layoutNanosecond, } ) func parseSQLTimestamp(s string) (t time.Time, err error) { for _, f := range tformats { t, err = time.Parse(f, s) if err == nil { break } } return } // FormatSQLTimestamp - returns the a string representation of the // timestamp as used in S3 Select func FormatSQLTimestamp(t time.Time) string { _, zoneOffset := t.Zone() hasZone := zoneOffset != 0 hasFracSecond := t.Nanosecond() != 0 hasSecond := t.Second() != 0 hasTime := t.Hour() != 0 || t.Minute() != 0 hasDay := t.Day() != 1 hasMonth := t.Month() != 1 switch { case hasFracSecond: return t.Format(layoutNanosecond) case hasSecond: return t.Format(layoutSecond) case hasTime || hasZone: return t.Format(layoutMinute) case hasDay: return t.Format(layoutDay) case hasMonth: return t.Format(layoutMonth) default: return t.Format(layoutYear) } } const ( timePartYear = "YEAR" timePartMonth = "MONTH" timePartDay = "DAY" timePartHour = "HOUR" timePartMinute = "MINUTE" timePartSecond = "SECOND" timePartTimezoneHour = "TIMEZONE_HOUR" timePartTimezoneMinute = "TIMEZONE_MINUTE" ) func extract(what string, t time.Time) (v *Value, err error) { switch what { case timePartYear: return FromInt(int64(t.Year())), nil case timePartMonth: return FromInt(int64(t.Month())), nil case timePartDay: return FromInt(int64(t.Day())), nil case timePartHour: return FromInt(int64(t.Hour())), nil case timePartMinute: return FromInt(int64(t.Minute())), nil case timePartSecond: return FromInt(int64(t.Second())), nil case timePartTimezoneHour: _, zoneOffset := t.Zone() return FromInt(int64(zoneOffset / 3600)), nil case timePartTimezoneMinute: _, zoneOffset := t.Zone() return FromInt(int64((zoneOffset % 3600) / 60)), nil default: // This does not happen return nil, errNotImplemented } } func dateAdd(timePart string, qty float64, t time.Time) (*Value, error) { var duration time.Duration switch timePart { case timePartYear: return FromTimestamp(t.AddDate(int(qty), 0, 0)), nil case timePartMonth: return FromTimestamp(t.AddDate(0, int(qty), 0)), nil case timePartDay: return FromTimestamp(t.AddDate(0, 0, int(qty))), nil case timePartHour: duration = time.Duration(qty) * time.Hour case timePartMinute: duration = time.Duration(qty) * time.Minute case timePartSecond: duration = time.Duration(qty) * time.Second default: return nil, errNotImplemented } return FromTimestamp(t.Add(duration)), nil } // dateDiff computes the difference between two times in terms of the // `timePart` which can be years, months, days, hours, minutes or // seconds. For difference in years, months or days, the time part, // including timezone is ignored. func dateDiff(timePart string, ts1, ts2 time.Time) (*Value, error) { if ts2.Before(ts1) { v, err := dateDiff(timePart, ts2, ts1) if err == nil { v.negate() } return v, err } duration := ts2.Sub(ts1) y1, m1, d1 := ts1.Date() y2, m2, d2 := ts2.Date() switch timePart { case timePartYear: dy := int64(y2 - y1) if m2 > m1 || (m2 == m1 && d2 >= d1) { return FromInt(dy), nil } return FromInt(dy - 1), nil case timePartMonth: m1 += time.Month(12 * y1) m2 += time.Month(12 * y2) return FromInt(int64(m2 - m1)), nil case timePartDay: return FromInt(int64(duration / (24 * time.Hour))), nil case timePartHour: hours := duration / time.Hour return FromInt(int64(hours)), nil case timePartMinute: minutes := duration / time.Minute return FromInt(int64(minutes)), nil case timePartSecond: seconds := duration / time.Second return FromInt(int64(seconds)), nil default: } return nil, errNotImplemented }