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/*
* Copyright (c) 2000-2018, 达梦数据库有限公司.
* All rights reserved.
*/
package dm
import (
"math"
"strconv"
"strings"
"time"
"unicode"
)
func encodeByString(x string, column column, conn DmConnection) ([]byte, error) {
dt := make([]int, DT_LEN)
if _, err := toDTFromString(x, dt); err != nil {
return nil, err
}
return encode(dt, column, int(conn.dmConnector.localTimezone), int(conn.DbTimezone))
}
func encodeByTime(x time.Time, column column, conn DmConnection) ([]byte, error) {
dt := toDTFromTime(x)
return encode(dt, column, int(conn.dmConnector.localTimezone), int(conn.DbTimezone))
}
func toTimeFromString(str string, ltz int) time.Time {
dt := make([]int, DT_LEN)
toDTFromString(str, dt)
return toTimeFromDT(dt, ltz)
}
func toTimeFromDT(dt []int, ltz int) time.Time {
var year, month, day, hour, minute, second, nsec, tz int
year = dt[OFFSET_YEAR]
if dt[OFFSET_MONTH] > 0 {
month = dt[OFFSET_MONTH]
} else {
month = 1
}
if dt[OFFSET_DAY] > 0 {
day = dt[OFFSET_DAY]
} else {
day = 1
}
hour = dt[OFFSET_HOUR]
minute = dt[OFFSET_MINUTE]
second = dt[OFFSET_SECOND]
nsec = dt[OFFSET_NANOSECOND]
if dt[OFFSET_TIMEZONE] == INVALID_VALUE {
tz = ltz * 60
} else {
tz = dt[OFFSET_TIMEZONE] * 60
}
return time.Date(year, time.Month(month), day, hour, minute, second, nsec, time.FixedZone("", tz))
}
func decode(value []byte, isBdta bool, column column, ltz int, dtz int) []int {
var dt []int
if isBdta {
dt = dmdtDecodeBdta(value)
} else {
dt = dmdtDecodeFast(value)
}
if column.mask == MASK_LOCAL_DATETIME {
transformTZ(dt, dtz, ltz)
}
return dt
}
func dmdtDecodeFast(value []byte) []int {
dt := make([]int, DT_LEN)
dt[OFFSET_TIMEZONE] = INVALID_VALUE
dtype := 0
if len(value) == DATE_PREC {
dtype = DATE
} else if len(value) == TIME_PREC {
dtype = TIME
} else if len(value) == TIME_TZ_PREC {
dtype = TIME_TZ
} else if len(value) == DATETIME_PREC {
dtype = DATETIME
} else if len(value) == DATETIME2_PREC {
dtype = DATETIME2
} else if len(value) == DATETIME_TZ_PREC {
dtype = DATETIME_TZ
} else if len(value) == DATETIME2_TZ_PREC {
dtype = DATETIME2_TZ
}
if dtype == DATE {
dt[OFFSET_YEAR] = int(Dm_build_650.Dm_build_747(value, 0)) & 0x7FFF
if dt[OFFSET_YEAR] > 9999 {
dt[OFFSET_YEAR] = int(int16(dt[OFFSET_YEAR] | 0x8000))
}
dt[OFFSET_MONTH] = ((int(value[1]) >> 7) & 0x1) + ((int(value[2]) & 0x07) << 1)
dt[OFFSET_DAY] = ((int(value[2]) & 0xF8) >> 3) & 0x1f
} else if dtype == TIME {
dt[OFFSET_HOUR] = int(value[0]) & 0x1F
dt[OFFSET_MINUTE] = ((int(value[0]) >> 5) & 0x07) + ((int(value[1]) & 0x07) << 3)
dt[OFFSET_SECOND] = ((int(value[1]) >> 3) & 0x1f) + ((int(value[2]) & 0x01) << 5)
dt[OFFSET_NANOSECOND] = ((int(value[2]) >> 1) & 0x7f) + ((int(value[3]) & 0x00ff) << 7) + ((int(value[4]) & 0x1F) << 15)
dt[OFFSET_NANOSECOND] *= 1000
} else if dtype == TIME_TZ {
dt[OFFSET_HOUR] = int(value[0]) & 0x1F
dt[OFFSET_MINUTE] = ((int(value[0]) >> 5) & 0x07) + ((int(value[1]) & 0x07) << 3)
dt[OFFSET_SECOND] = ((int(value[1]) >> 3) & 0x1f) + ((int(value[2]) & 0x01) << 5)
dt[OFFSET_NANOSECOND] = ((int(value[2]) >> 1) & 0x7f) + ((int(value[3]) & 0x00ff) << 7) + ((int(value[4]) & 0x1F) << 15)
dt[OFFSET_NANOSECOND] *= 1000
dt[OFFSET_TIMEZONE] = int(Dm_build_650.Dm_build_747(value, 5))
} else if dtype == DATETIME {
dt[OFFSET_YEAR] = int(Dm_build_650.Dm_build_747(value, 0)) & 0x7FFF
if dt[OFFSET_YEAR] > 9999 {
dt[OFFSET_YEAR] = int(int16(dt[OFFSET_YEAR] | 0x8000))
}
dt[OFFSET_MONTH] = ((int(value[1]) >> 7) & 0x1) + ((int(value[2]) & 0x07) << 1)
dt[OFFSET_DAY] = ((int(value[2]) & 0xF8) >> 3) & 0x1f
dt[OFFSET_HOUR] = (int(value[3]) & 0x1F)
dt[OFFSET_MINUTE] = ((int(value[3]) >> 5) & 0x07) + ((int(value[4]) & 0x07) << 3)
dt[OFFSET_SECOND] = ((int(value[4]) >> 3) & 0x1f) + ((int(value[5]) & 0x01) << 5)
dt[OFFSET_NANOSECOND] = ((int(value[5]) >> 1) & 0x7f) + ((int(value[6]) & 0x00ff) << 7) + ((int(value[7]) & 0x1F) << 15)
dt[OFFSET_NANOSECOND] *= 1000
} else if dtype == DATETIME_TZ {
dt[OFFSET_YEAR] = int(Dm_build_650.Dm_build_747(value, 0)) & 0x7FFF
if dt[OFFSET_YEAR] > 9999 {
dt[OFFSET_YEAR] = int(int16(dt[OFFSET_YEAR] | 0x8000))
}
dt[OFFSET_MONTH] = ((int(value[1]) >> 7) & 0x1) + ((int(value[2]) & 0x07) << 1)
dt[OFFSET_DAY] = ((int(value[2]) & 0xF8) >> 3) & 0x1f
dt[OFFSET_HOUR] = (int(value[3]) & 0x1F)
dt[OFFSET_MINUTE] = ((int(value[3]) >> 5) & 0x07) + ((int(value[4]) & 0x07) << 3)
dt[OFFSET_SECOND] = ((int(value[4]) >> 3) & 0x1f) + ((int(value[5]) & 0x01) << 5)
dt[OFFSET_NANOSECOND] = ((int(value[5]) >> 1) & 0x7f) + ((int(value[6]) & 0x00ff) << 7) + ((int(value[7]) & 0x1F) << 15)
dt[OFFSET_NANOSECOND] *= 1000
dt[OFFSET_TIMEZONE] = int(Dm_build_650.Dm_build_747(value, len(value)-2))
} else if dtype == DATETIME2 {
dt[OFFSET_YEAR] = int(Dm_build_650.Dm_build_747(value, 0)) & 0x7FFF
if dt[OFFSET_YEAR] > 9999 {
dt[OFFSET_YEAR] = int(int16(dt[OFFSET_YEAR] | 0x8000))
}
dt[OFFSET_MONTH] = ((int(value[1]) >> 7) & 0x1) + ((int(value[2]) & 0x07) << 1)
dt[OFFSET_DAY] = ((int(value[2]) & 0xF8) >> 3) & 0x1f
dt[OFFSET_HOUR] = (int(value[3]) & 0x1F)
dt[OFFSET_MINUTE] = ((int(value[3]) >> 5) & 0x07) + ((int(value[4]) & 0x07) << 3)
dt[OFFSET_SECOND] = ((int(value[4]) >> 3) & 0x1f) + ((int(value[5]) & 0x01) << 5)
dt[OFFSET_NANOSECOND] = ((int(value[5]) >> 1) & 0x7f) + ((int(value[6]) & 0x00ff) << 7) + ((int(value[7]) & 0x00ff) << 15) + ((int(value[8]) & 0x7F) << 23)
} else if dtype == DATETIME2_TZ {
dt[OFFSET_YEAR] = int(Dm_build_650.Dm_build_747(value, 0)) & 0x7FFF
if dt[OFFSET_YEAR] > 9999 {
dt[OFFSET_YEAR] = int(int16(dt[OFFSET_YEAR] | 0x8000))
}
dt[OFFSET_MONTH] = ((int(value[1]) >> 7) & 0x1) + ((int(value[2]) & 0x07) << 1)
dt[OFFSET_DAY] = ((int(value[2]) & 0xF8) >> 3) & 0x1f
dt[OFFSET_HOUR] = (int(value[3]) & 0x1F)
dt[OFFSET_MINUTE] = ((int(value[3]) >> 5) & 0x07) + ((int(value[4]) & 0x07) << 3)
dt[OFFSET_SECOND] = ((int(value[4]) >> 3) & 0x1f) + ((int(value[5]) & 0x01) << 5)
dt[OFFSET_NANOSECOND] = ((int(value[5]) >> 1) & 0x7f) + ((int(value[6]) & 0x00ff) << 7) + ((int(value[7]) & 0x00ff) << 15) + ((int(value[8]) & 0x7F) << 23)
dt[OFFSET_TIMEZONE] = int(Dm_build_650.Dm_build_747(value, len(value)-2))
}
return dt
}
func dmdtDecodeBdta(value []byte) []int {
dt := make([]int, DT_LEN)
dt[OFFSET_YEAR] = int(Dm_build_650.Dm_build_747(value, 0))
dt[OFFSET_MONTH] = int(value[2] & 0xFF)
dt[OFFSET_DAY] = int(value[3] & 0xFF)
dt[OFFSET_HOUR] = int(value[4] & 0xFF)
dt[OFFSET_MINUTE] = int(value[5] & 0xFF)
dt[OFFSET_SECOND] = int(value[6] & 0xFF)
dt[OFFSET_NANOSECOND] = int((value[7] & 0xFF) + (value[8] << 8) + (value[9] << 16))
dt[OFFSET_TIMEZONE] = int(Dm_build_650.Dm_build_747(value, 10))
if len(value) > 12 {
dt[OFFSET_NANOSECOND] += int(value[12] << 24)
}
return dt
}
func dtToStringByOracleFormat(dt []int, oracleFormatPattern string, scale int32, language int) string {
return format(dt, oracleFormatPattern, scale, language)
}
func dtToString(dt []int, dtype int, scale int) string {
switch dtype {
case DATE:
return formatYear(dt[OFFSET_YEAR]) + "-" + format2(dt[OFFSET_MONTH]) + "-" + format2(dt[OFFSET_DAY])
case TIME:
if scale > 0 {
return format2(dt[OFFSET_HOUR]) + ":" + format2(dt[OFFSET_MINUTE]) + ":" + format2(dt[OFFSET_SECOND]) + "." + formatMilliSecond(dt[OFFSET_NANOSECOND], scale)
} else {
return format2(dt[OFFSET_HOUR]) + ":" + format2(dt[OFFSET_MINUTE]) + ":" + format2(dt[OFFSET_SECOND])
}
case TIME_TZ:
if scale > 0 {
return format2(dt[OFFSET_HOUR]) + ":" + format2(dt[OFFSET_MINUTE]) + ":" + format2(dt[OFFSET_SECOND]) + "." + formatMilliSecond(dt[OFFSET_NANOSECOND], scale) + " " + formatTZ(dt[OFFSET_TIMEZONE])
} else {
return format2(dt[OFFSET_HOUR]) + ":" + format2(dt[OFFSET_MINUTE]) + ":" + format2(dt[OFFSET_SECOND]) + " " + formatTZ(dt[OFFSET_TIMEZONE])
}
case DATETIME, DATETIME2:
if scale > 0 {
return formatYear(dt[OFFSET_YEAR]) + "-" + format2(dt[OFFSET_MONTH]) + "-" + format2(dt[OFFSET_DAY]) + " " + format2(dt[OFFSET_HOUR]) + ":" + format2(dt[OFFSET_MINUTE]) + ":" + format2(dt[OFFSET_SECOND]) + "." + formatMilliSecond(dt[OFFSET_NANOSECOND], scale)
} else {
return formatYear(dt[OFFSET_YEAR]) + "-" + format2(dt[OFFSET_MONTH]) + "-" + format2(dt[OFFSET_DAY]) + " " + format2(dt[OFFSET_HOUR]) + ":" + format2(dt[OFFSET_MINUTE]) + ":" + format2(dt[OFFSET_SECOND])
}
case DATETIME_TZ, DATETIME2_TZ:
if scale > 0 {
return formatYear(dt[OFFSET_YEAR]) + "-" + format2(dt[OFFSET_MONTH]) + "-" + format2(dt[OFFSET_DAY]) + " " + format2(dt[OFFSET_HOUR]) + ":" + format2(dt[OFFSET_MINUTE]) + ":" + format2(dt[OFFSET_SECOND]) + "." + formatMilliSecond(dt[OFFSET_NANOSECOND], scale) + " " + formatTZ(dt[OFFSET_TIMEZONE])
} else {
return formatYear(dt[OFFSET_YEAR]) + "-" + format2(dt[OFFSET_MONTH]) + "-" + format2(dt[OFFSET_DAY]) + " " + format2(dt[OFFSET_HOUR]) + ":" + format2(dt[OFFSET_MINUTE]) + ":" + format2(dt[OFFSET_SECOND]) + " " + formatTZ(dt[OFFSET_TIMEZONE])
}
}
return ""
}
func formatYear(value int) string {
if value >= 0 {
if value < 10 {
return "000" + strconv.FormatInt(int64(value), 10)
} else if value < 100 {
return "00" + strconv.FormatInt(int64(value), 10)
} else if value < 1000 {
return "0" + strconv.FormatInt(int64(value), 10)
} else {
return strconv.FormatInt(int64(value), 10)
}
} else {
if value > -10 {
return "-000" + strconv.FormatInt(int64(-value), 10)
} else if value > -100 {
return "-00" + strconv.FormatInt(int64(-value), 10)
} else if value > -1000 {
return "-0" + strconv.FormatInt(int64(-value), 10)
} else {
return strconv.FormatInt(int64(value), 10)
}
}
}
func format2(value int) string {
if value < 10 {
return "0" + strconv.FormatInt(int64(value), 10)
} else {
return strconv.FormatInt(int64(value), 10)
}
}
func formatMilliSecond(ms int, prec int) string {
var ret string
if ms < 10 {
ret = "00000000" + strconv.FormatInt(int64(ms), 10)
} else if ms < 100 {
ret = "0000000" + strconv.FormatInt(int64(ms), 10)
} else if ms < 1000 {
ret = "000000" + strconv.FormatInt(int64(ms), 10)
} else if ms < 10000 {
ret = "00000" + strconv.FormatInt(int64(ms), 10)
} else if ms < 100000 {
ret = "0000" + strconv.FormatInt(int64(ms), 10)
} else if ms < 1000000 {
ret = "000" + strconv.FormatInt(int64(ms), 10)
} else if ms < 10000000 {
ret = "00" + strconv.FormatInt(int64(ms), 10)
} else if ms < 100000000 {
ret = "0" + strconv.FormatInt(int64(ms), 10)
} else {
ret = strconv.FormatInt(int64(ms), 10)
}
if prec < NANOSECOND_DIGITS {
ret = ret[:prec]
}
return ret
}
func formatTZ(tz int) string {
tz_hour := int(math.Abs(float64(tz / 60)))
tz_min := int(math.Abs(float64(tz % 60)))
if tz >= 0 {
return "+" + format2(tz_hour) + ":" + format2(tz_min)
} else {
return "-" + format2(tz_hour) + ":" + format2(tz_min)
}
}
func toDTFromTime(x time.Time) []int {
hour, min, sec := x.Clock()
ts := make([]int, DT_LEN)
ts[OFFSET_YEAR] = x.Year()
ts[OFFSET_MONTH] = int(x.Month())
ts[OFFSET_DAY] = x.Day()
ts[OFFSET_HOUR] = hour
ts[OFFSET_MINUTE] = min
ts[OFFSET_SECOND] = sec
ts[OFFSET_NANOSECOND] = (int)(x.Nanosecond())
_, tz := x.Zone()
ts[OFFSET_TIMEZONE] = tz / 60
return ts
}
func toDTFromUnix(sec int64, nsec int64) []int {
return toDTFromTime(time.Unix(sec, nsec))
}
func toDTFromString(s string, dt []int) (dtype int, err error) {
defer func() {
if p := recover(); p != nil {
err = ECGO_INVALID_DATETIME_FORMAT.throw()
}
}()
date_s := ""
time_s := ""
nanos_s := ""
tz_s := ""
year := 0
month := 0
day := 0
hour := 0
minute := 0
second := 0
a_nanos := 0
firstDash := -1
secondDash := -1
firstColon := -1
secondColon := -1
period := -1
sign := 0
ownTz := INVALID_VALUE
dtype = -1
zeros := "000000000"
if s != "" && strings.TrimSpace(s) == "" {
return 0, ECGO_INVALID_DATETIME_FORMAT.throw()
}
s = strings.TrimSpace(s)
if strings.Index(s, "-") == 0 {
s = strings.TrimSpace(s[1:])
sign = 1
}
comps := strings.Split(s, " ")
switch len(comps) {
case 3:
date_s = comps[0]
time_s = comps[1]
tz_s = comps[2]
dtype = DATETIME_TZ
case 2:
if strings.Index(comps[0], ":") > 0 {
time_s = comps[0]
tz_s = comps[1]
dtype = TIME_TZ
} else {
date_s = comps[0]
time_s = comps[1]
dtype = DATETIME
}
case 1:
if strings.Index(comps[0], ":") > 0 {
time_s = comps[0]
dtype = TIME
} else {
date_s = comps[0]
dtype = DATE
}
default:
return 0, ECGO_INVALID_DATETIME_FORMAT.throw()
}
if date_s != "" {
firstDash = strings.Index(date_s, "-")
secondDash = strings.Index(date_s[firstDash+1:], "-")
if firstDash < 0 || secondDash < 0 {
firstDash = strings.Index(s, ".")
secondDash = strings.Index(date_s[firstDash+1:], ".")
}
if firstDash < 0 || secondDash < 0 {
firstDash = strings.Index(s, "/")
secondDash = strings.Index(date_s[firstDash+1:], "/")
}
if secondDash > 0 {
secondDash += firstDash + 1
}
if (firstDash > 0) && (secondDash > 0) && (secondDash < len(date_s)-1) {
if sign == 1 {
i, err := strconv.ParseInt(date_s[:firstDash], 10, 32)
if err != nil {
return 0, ECGO_INVALID_DATETIME_FORMAT.addDetailln(err.Error()).throw()
}
year = 0 - int(i) - 1900
} else {
i, err := strconv.ParseInt(date_s[:firstDash], 10, 32)
if err != nil {
return 0, ECGO_INVALID_DATETIME_FORMAT.addDetailln(err.Error()).throw()
}
year = int(i) - 1900
}
i, err := strconv.ParseInt(date_s[firstDash+1:secondDash], 10, 32)
if err != nil {
return 0, ECGO_INVALID_DATETIME_FORMAT.addDetailln(err.Error()).throw()
}
month = int(i) - 1
i, err = strconv.ParseInt(date_s[secondDash+1:], 10, 32)
if err != nil {
return 0, ECGO_INVALID_DATETIME_FORMAT.addDetailln(err.Error()).throw()
}
day = int(i)
if !checkDate(year+1900, month+1, day) {
return -1, ECGO_INVALID_DATETIME_FORMAT.throw()
}
} else {
return -1, ECGO_INVALID_DATETIME_FORMAT.throw()
}
}
if time_s != "" {
firstColon = strings.Index(time_s, ":")
secondColon = strings.Index(time_s[firstColon+1:], ":")
if secondColon > 0 {
secondColon += firstColon + 1
}
period = strings.Index(time_s[secondColon+1:], ".")
if period > 0 {
period += secondColon + 1
}
if (firstColon > 0) && (secondColon > 0) && (secondColon < len(time_s)-1) {
i, err := strconv.ParseInt(time_s[:firstColon], 10, 32)
if err != nil {
return 0, ECGO_INVALID_DATETIME_FORMAT.addDetailln(err.Error()).throw()
}
hour = int(i)
i, err = strconv.ParseInt(time_s[firstColon+1:secondColon], 10, 32)
if err != nil {
return 0, ECGO_INVALID_DATETIME_FORMAT.addDetailln(err.Error()).throw()
}
minute = int(i)
if period > 0 && period < len(time_s)-1 {
i, err = strconv.ParseInt(time_s[secondColon+1:period], 10, 32)
if err != nil {
return 0, ECGO_INVALID_DATETIME_FORMAT.addDetailln(err.Error()).throw()
}
second = int(i)
nanos_s = time_s[period+1:]
if len(nanos_s) > NANOSECOND_DIGITS {
return -1, ECGO_INVALID_DATETIME_FORMAT.throw()
}
if !unicode.IsDigit(rune(nanos_s[0])) {
return -1, ECGO_INVALID_DATETIME_FORMAT.throw()
}
nanos_s = nanos_s + zeros[0:NANOSECOND_DIGITS-len(nanos_s)]
i, err = strconv.ParseInt(nanos_s, 10, 32)
if err != nil {
return 0, ECGO_INVALID_DATETIME_FORMAT.addDetailln(err.Error()).throw()
}
a_nanos = int(i)
} else if period > 0 {
return -1, ECGO_INVALID_DATETIME_FORMAT.throw()
} else {
i, err = strconv.ParseInt(time_s[secondColon+1:], 10, 32)
if err != nil {
return 0, ECGO_INVALID_DATETIME_FORMAT.addDetailln(err.Error()).throw()
}
second = int(i)
}
if hour >= 24 || hour < 0 || minute >= 60 || minute < 0 || second >= 60 || second < 0 {
return -1, ECGO_INVALID_DATETIME_FORMAT.throw()
}
} else {
return -1, ECGO_INVALID_DATETIME_FORMAT.throw()
}
}
if tz_s != "" {
neg := false
if strings.Index(tz_s, "-") == 0 {
neg = true
}
if strings.Index(tz_s, "-") == 0 || strings.Index(tz_s, "+") == 0 {
tz_s = strings.TrimSpace(tz_s[1:])
}
hm := strings.Split(tz_s, ":")
var tzh, tzm int16 = 0, 0
switch len(hm) {
case 2:
s, err := strconv.ParseInt(strings.TrimSpace(hm[0]), 10, 16)
if err != nil {
return -1, ECGO_INVALID_DATETIME_FORMAT.throw()
}
tzh = int16(s)
s, err = strconv.ParseInt(strings.TrimSpace(hm[1]), 10, 16)
if err != nil {
return -1, ECGO_INVALID_DATETIME_FORMAT.throw()
}
tzm = int16(s)
case 1:
s, err := strconv.ParseInt(strings.TrimSpace(hm[0]), 10, 16)
if err != nil {
return -1, ECGO_INVALID_DATETIME_FORMAT.throw()
}
tzh = int16(s)
default:
return -1, ECGO_INVALID_DATETIME_FORMAT.throw()
}
ownTz = int(tzh*60 + tzm)
if ownTz < 0 {
return -1, ECGO_INVALID_DATETIME_FORMAT.throw()
}
if neg {
ownTz *= -1
}
if ownTz <= -13*60 || ownTz > 14*60 {
return -1, ECGO_INVALID_DATETIME_FORMAT.throw()
}
}
dt[OFFSET_YEAR] = year + 1900
dt[OFFSET_MONTH] = month + 1
if day == 0 {
dt[OFFSET_DAY] = 1
} else {
dt[OFFSET_DAY] = day
}
dt[OFFSET_HOUR] = hour
dt[OFFSET_MINUTE] = minute
dt[OFFSET_SECOND] = second
dt[OFFSET_NANOSECOND] = a_nanos
dt[OFFSET_TIMEZONE] = int(ownTz)
return dtype, nil
}
func transformTZ(dt []int, defaultSrcTz int, destTz int) {
srcTz := defaultSrcTz
if srcTz != INVALID_VALUE && destTz != INVALID_VALUE && destTz != srcTz {
dt = addMinute(dt, destTz-srcTz)
dt[OFFSET_TIMEZONE] = destTz
}
}
func encode(dt []int, column column, lTz int, dTz int) ([]byte, error) {
if dt[OFFSET_TIMEZONE] != INVALID_VALUE {
transformTZ(dt, dt[OFFSET_TIMEZONE], lTz)
}
if column.mask == MASK_LOCAL_DATETIME {
transformTZ(dt, dt[OFFSET_TIMEZONE], dTz)
}
if dt[OFFSET_YEAR] < -4712 || dt[OFFSET_YEAR] > 9999 {
return nil, ECGO_DATETIME_OVERFLOW.throw()
}
year := dt[OFFSET_YEAR]
month := dt[OFFSET_MONTH]
day := dt[OFFSET_DAY]
hour := dt[OFFSET_HOUR]
min := dt[OFFSET_MINUTE]
sec := dt[OFFSET_SECOND]
msec := dt[OFFSET_NANOSECOND]
var tz int
if dt[OFFSET_TIMEZONE] == INVALID_VALUE {
tz = dTz
} else {
tz = dt[OFFSET_TIMEZONE]
}
var ret []byte
if column.colType == DATE {
ret = make([]byte, 3)
ret[0] = (byte)(year & 0xFF)
if year >= 0 {
ret[1] = (byte)((year >> 8) | ((month & 0x01) << 7))
} else {
ret[1] = (byte)((year >> 8) & (((month & 0x01) << 7) | 0x7f))
}
ret[2] = (byte)(((month & 0x0E) >> 1) | (day << 3))
} else if column.colType == DATETIME {
msec /= 1000
ret = make([]byte, 8)
ret[0] = (byte)(year & 0xFF)
if year >= 0 {
ret[1] = (byte)((year >> 8) | ((month & 0x01) << 7))
} else {
ret[1] = (byte)((year >> 8) & (((month & 0x01) << 7) | 0x7f))
}
ret[2] = (byte)(((month & 0x0E) >> 1) | (day << 3))
ret[3] = (byte)(hour | ((min & 0x07) << 5))
ret[4] = (byte)(((min & 0x38) >> 3) | ((sec & 0x1F) << 3))
ret[5] = (byte)(((sec & 0x20) >> 5) | ((msec & 0x7F) << 1))
ret[6] = (byte)((msec >> 7) & 0xFF)
ret[7] = (byte)((msec >> 15) & 0xFF)
} else if column.colType == DATETIME2 {
ret = make([]byte, 9)
ret[0] = (byte)(year & 0xFF)
if year >= 0 {
ret[1] = (byte)((year >> 8) | ((month & 0x01) << 7))
} else {
ret[1] = (byte)((year >> 8) & (((month & 0x01) << 7) | 0x7f))
}
ret[2] = (byte)(((month & 0x0E) >> 1) | (day << 3))
ret[3] = (byte)(hour | ((min & 0x07) << 5))
ret[4] = (byte)(((min & 0x38) >> 3) | ((sec & 0x1F) << 3))
ret[5] = (byte)(((sec & 0x20) >> 5) | ((msec & 0x7F) << 1))
ret[6] = (byte)((msec >> 7) & 0xFF)
ret[7] = (byte)((msec >> 15) & 0xFF)
ret[8] = (byte)((msec >> 23) & 0xFF)
} else if column.colType == DATETIME_TZ {
msec /= 1000
ret = make([]byte, 10)
ret[0] = (byte)(year & 0xFF)
if year >= 0 {
ret[1] = (byte)((year >> 8) | ((month & 0x01) << 7))
} else {
ret[1] = (byte)((year >> 8) & (((month & 0x01) << 7) | 0x7f))
}
ret[2] = (byte)(((month & 0x0E) >> 1) | (day << 3))
ret[3] = (byte)(hour | ((min & 0x07) << 5))
ret[4] = (byte)(((min & 0x38) >> 3) | ((sec & 0x1F) << 3))
ret[5] = (byte)(((sec & 0x20) >> 5) | ((msec & 0x7F) << 1))
ret[6] = (byte)((msec >> 7) & 0xFF)
ret[7] = (byte)((msec >> 15) & 0xFF)
Dm_build_650.Dm_build_661(ret, 8, int16(tz))
} else if column.colType == DATETIME2_TZ {
ret = make([]byte, 11)
ret[0] = (byte)(year & 0xFF)
if year >= 0 {
ret[1] = (byte)((year >> 8) | ((month & 0x01) << 7))
} else {
ret[1] = (byte)((year >> 8) & (((month & 0x01) << 7) | 0x7f))
}
ret[2] = (byte)(((month & 0x0E) >> 1) | (day << 3))
ret[3] = (byte)(hour | ((min & 0x07) << 5))
ret[4] = (byte)(((min & 0x38) >> 3) | ((sec & 0x1F) << 3))
ret[5] = (byte)(((sec & 0x20) >> 5) | ((msec & 0x7F) << 1))
ret[6] = (byte)((msec >> 7) & 0xFF)
ret[7] = (byte)((msec >> 15) & 0xFF)
ret[8] = (byte)((msec >> 23) & 0xFF)
Dm_build_650.Dm_build_661(ret, 8, int16(tz))
} else if column.colType == TIME {
msec /= 1000
ret = make([]byte, 5)
ret[0] = (byte)(hour | ((min & 0x07) << 5))
ret[1] = (byte)(((min & 0x38) >> 3) | ((sec & 0x1F) << 3))
ret[2] = (byte)(((sec & 0x20) >> 5) | ((msec & 0x7F) << 1))
ret[3] = (byte)((msec >> 7) & 0xFF)
ret[4] = (byte)((msec >> 15) & 0xFF)
} else if column.colType == TIME_TZ {
msec /= 1000
ret = make([]byte, 7)
ret[0] = (byte)(hour | ((min & 0x07) << 5))
ret[1] = (byte)(((min & 0x38) >> 3) | ((sec & 0x1F) << 3))
ret[2] = (byte)(((sec & 0x20) >> 5) | ((msec & 0x7F) << 1))
ret[3] = (byte)((msec >> 7) & 0xFF)
ret[4] = (byte)((msec >> 15) & 0xFF)
Dm_build_650.Dm_build_661(ret, 5, int16(tz))
}
return ret, nil
}
func toDate(x int64, column column, conn DmConnection) ([]byte, error) {
switch column.colType {
case DATETIME, DATETIME2:
if x > 2958463*24*60*60 {
return nil, ECGO_DATETIME_OVERFLOW.throw()
}
dt := toDTFromUnix(x-Seconds_1900_1970, 0)
return encode(dt, column, int(conn.dmConnector.localTimezone), int(conn.DbTimezone))
case TIME:
dt := toDTFromUnix(x, 0)
return encode(dt, column, int(conn.dmConnector.localTimezone), int(conn.DbTimezone))
case DATE:
if x > 2958463 {
return nil, ECGO_DATETIME_OVERFLOW.throw()
}
dt := toDTFromUnix(x*24*60*60-Seconds_1900_1970, 0)
if dt[OFFSET_YEAR] < -4712 || dt[OFFSET_YEAR] > 9999 {
return nil, ECGO_DATETIME_OVERFLOW.throw()
}
return encode(dt, column, int(conn.dmConnector.localTimezone), int(conn.DbTimezone))
default:
return nil, ECGO_DATA_CONVERTION_ERROR.throw()
}
}
func checkDate(year int, month int, day int) bool {
if year > 9999 || year < -4712 || month > 12 || month < 1 {
return false
}
monthDays := getDaysOfMonth(year, month)
if day > monthDays || day < 1 {
return false
}
return true
}
func getDaysOfMonth(year int, month int) int {
switch month {
case 1, 3, 5, 7, 8, 10, 12:
return 31
case 4, 6, 9, 11:
return 30
case 2:
if isLeapYear(year) {
return 29
}
return 28
default:
return 0
}
}
func isLeapYear(year int) bool {
return (year%4 == 0 && year%100 != 0) || year%400 == 0
}
func addYear(dt []int, n int) []int {
dt[OFFSET_YEAR] += n
return dt
}
func addMonth(dt []int, n int) []int {
month := dt[OFFSET_MONTH] + n
addYearValue := month / 12
if month %= 12; month < 1 {
month += 12
addYearValue--
}
daysOfMonth := getDaysOfMonth(dt[OFFSET_YEAR], month)
if dt[OFFSET_DAY] > daysOfMonth {
dt[OFFSET_DAY] = daysOfMonth
}
dt[OFFSET_MONTH] = month
addYear(dt, addYearValue)
return dt
}
func addDay(dt []int, n int) []int {
tmp := dt[OFFSET_DAY] + n
monthDays := 0
monthDays = getDaysOfMonth(dt[OFFSET_YEAR], dt[OFFSET_MONTH])
for tmp > monthDays || tmp <= 0 {
if tmp > monthDays {
addMonth(dt, 1)
tmp -= monthDays
} else {
addMonth(dt, -1)
tmp += monthDays
}
}
dt[OFFSET_DAY] = tmp
return dt
}
func addHour(dt []int, n int) []int {
hour := dt[OFFSET_HOUR] + n
addDayValue := hour / 24
if hour %= 24; hour < 0 {
hour += 24
addDayValue--
}
dt[OFFSET_HOUR] = hour
addDay(dt, addDayValue)
return dt
}
func addMinute(dt []int, n int) []int {
minute := dt[OFFSET_MINUTE] + n
addHourValue := minute / 60
if minute %= 60; minute < 0 {
minute += 60
addHourValue--
}
dt[OFFSET_MINUTE] = minute
addHour(dt, addHourValue)
return dt
}
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