use crate::timezone::Tz;
use crate::ArrowPrimitiveType;
use arrow_schema::{DataType, TimeUnit};
use chrono::{DateTime, Duration, NaiveDate, NaiveDateTime, NaiveTime, TimeZone, Timelike, Utc};
pub const SECONDS_IN_DAY: i64 = 86_400;
pub const MILLISECONDS: i64 = 1_000;
pub const MICROSECONDS: i64 = 1_000_000;
pub const NANOSECONDS: i64 = 1_000_000_000;
pub const MILLISECONDS_IN_DAY: i64 = SECONDS_IN_DAY * MILLISECONDS;
pub const MICROSECONDS_IN_DAY: i64 = SECONDS_IN_DAY * MICROSECONDS;
pub const NANOSECONDS_IN_DAY: i64 = SECONDS_IN_DAY * NANOSECONDS;
pub const UNIX_EPOCH_DAY: i64 = 719_163;
#[inline]
pub fn date32_to_datetime(v: i32) -> Option<NaiveDateTime> {
Some(DateTime::from_timestamp(v as i64 * SECONDS_IN_DAY, 0)?.naive_utc())
}
#[inline]
pub fn date64_to_datetime(v: i64) -> Option<NaiveDateTime> {
let (sec, milli_sec) = split_second(v, MILLISECONDS);
let datetime = DateTime::from_timestamp(
sec,
milli_sec * MICROSECONDS as u32,
)?;
Some(datetime.naive_utc())
}
#[inline]
pub fn time32s_to_time(v: i32) -> Option<NaiveTime> {
NaiveTime::from_num_seconds_from_midnight_opt(v as u32, 0)
}
#[inline]
pub fn time32ms_to_time(v: i32) -> Option<NaiveTime> {
let v = v as i64;
NaiveTime::from_num_seconds_from_midnight_opt(
(v / MILLISECONDS) as u32,
(v % MILLISECONDS * MICROSECONDS) as u32,
)
}
#[inline]
pub fn time64us_to_time(v: i64) -> Option<NaiveTime> {
NaiveTime::from_num_seconds_from_midnight_opt(
(v / MICROSECONDS) as u32,
(v % MICROSECONDS * MILLISECONDS) as u32,
)
}
#[inline]
pub fn time64ns_to_time(v: i64) -> Option<NaiveTime> {
NaiveTime::from_num_seconds_from_midnight_opt(
(v / NANOSECONDS) as u32,
(v % NANOSECONDS) as u32,
)
}
#[inline]
pub fn time_to_time32s(v: NaiveTime) -> i32 {
v.num_seconds_from_midnight() as i32
}
#[inline]
pub fn time_to_time32ms(v: NaiveTime) -> i32 {
(v.num_seconds_from_midnight() as i64 * MILLISECONDS
+ v.nanosecond() as i64 * MILLISECONDS / NANOSECONDS) as i32
}
#[inline]
pub fn time_to_time64us(v: NaiveTime) -> i64 {
v.num_seconds_from_midnight() as i64 * MICROSECONDS
+ v.nanosecond() as i64 * MICROSECONDS / NANOSECONDS
}
#[inline]
pub fn time_to_time64ns(v: NaiveTime) -> i64 {
v.num_seconds_from_midnight() as i64 * NANOSECONDS + v.nanosecond() as i64
}
#[inline]
pub fn timestamp_s_to_datetime(v: i64) -> Option<NaiveDateTime> {
Some(DateTime::from_timestamp(v, 0)?.naive_utc())
}
#[inline]
pub fn timestamp_s_to_date(secs: i64) -> Option<NaiveDateTime> {
let days = secs.div_euclid(86_400) + UNIX_EPOCH_DAY;
if days < i32::MIN as i64 || days > i32::MAX as i64 {
return None;
}
let date = NaiveDate::from_num_days_from_ce_opt(days as i32)?;
Some(date.and_time(NaiveTime::default()).and_utc().naive_utc())
}
#[inline]
pub fn timestamp_s_to_time(secs: i64) -> Option<NaiveDateTime> {
let secs = secs.rem_euclid(86_400);
let time = NaiveTime::from_num_seconds_from_midnight_opt(secs as u32, 0)?;
Some(
DateTime::<Utc>::from_naive_utc_and_offset(
NaiveDateTime::new(NaiveDate::default(), time),
Utc,
)
.naive_utc(),
)
}
#[inline]
pub fn timestamp_ms_to_datetime(v: i64) -> Option<NaiveDateTime> {
let (sec, milli_sec) = split_second(v, MILLISECONDS);
let datetime = DateTime::from_timestamp(
sec,
milli_sec * MICROSECONDS as u32,
)?;
Some(datetime.naive_utc())
}
#[inline]
pub fn timestamp_us_to_datetime(v: i64) -> Option<NaiveDateTime> {
let (sec, micro_sec) = split_second(v, MICROSECONDS);
let datetime = DateTime::from_timestamp(
sec,
micro_sec * MILLISECONDS as u32,
)?;
Some(datetime.naive_utc())
}
#[inline]
pub fn timestamp_ns_to_datetime(v: i64) -> Option<NaiveDateTime> {
let (sec, nano_sec) = split_second(v, NANOSECONDS);
let datetime = DateTime::from_timestamp(
sec, nano_sec,
)?;
Some(datetime.naive_utc())
}
#[inline]
pub(crate) fn split_second(v: i64, base: i64) -> (i64, u32) {
(v.div_euclid(base), v.rem_euclid(base) as u32)
}
#[inline]
pub fn duration_s_to_duration(v: i64) -> Duration {
Duration::try_seconds(v).unwrap()
}
#[inline]
pub fn duration_ms_to_duration(v: i64) -> Duration {
Duration::try_milliseconds(v).unwrap()
}
#[inline]
pub fn duration_us_to_duration(v: i64) -> Duration {
Duration::microseconds(v)
}
#[inline]
pub fn duration_ns_to_duration(v: i64) -> Duration {
Duration::nanoseconds(v)
}
pub fn as_datetime<T: ArrowPrimitiveType>(v: i64) -> Option<NaiveDateTime> {
match T::DATA_TYPE {
DataType::Date32 => date32_to_datetime(v as i32),
DataType::Date64 => date64_to_datetime(v),
DataType::Time32(_) | DataType::Time64(_) => None,
DataType::Timestamp(unit, _) => match unit {
TimeUnit::Second => timestamp_s_to_datetime(v),
TimeUnit::Millisecond => timestamp_ms_to_datetime(v),
TimeUnit::Microsecond => timestamp_us_to_datetime(v),
TimeUnit::Nanosecond => timestamp_ns_to_datetime(v),
},
DataType::Interval(_) => None,
_ => None,
}
}
pub fn as_datetime_with_timezone<T: ArrowPrimitiveType>(v: i64, tz: Tz) -> Option<DateTime<Tz>> {
let naive = as_datetime::<T>(v)?;
Some(Utc.from_utc_datetime(&naive).with_timezone(&tz))
}
pub fn as_date<T: ArrowPrimitiveType>(v: i64) -> Option<NaiveDate> {
as_datetime::<T>(v).map(|datetime| datetime.date())
}
pub fn as_time<T: ArrowPrimitiveType>(v: i64) -> Option<NaiveTime> {
match T::DATA_TYPE {
DataType::Time32(unit) => {
let v = v as u32;
match unit {
TimeUnit::Second => time32s_to_time(v as i32),
TimeUnit::Millisecond => time32ms_to_time(v as i32),
_ => None,
}
}
DataType::Time64(unit) => match unit {
TimeUnit::Microsecond => time64us_to_time(v),
TimeUnit::Nanosecond => time64ns_to_time(v),
_ => None,
},
DataType::Timestamp(_, _) => as_datetime::<T>(v).map(|datetime| datetime.time()),
DataType::Date32 | DataType::Date64 => NaiveTime::from_hms_opt(0, 0, 0),
DataType::Interval(_) => None,
_ => None,
}
}
pub fn as_duration<T: ArrowPrimitiveType>(v: i64) -> Option<Duration> {
match T::DATA_TYPE {
DataType::Duration(unit) => match unit {
TimeUnit::Second => Some(duration_s_to_duration(v)),
TimeUnit::Millisecond => Some(duration_ms_to_duration(v)),
TimeUnit::Microsecond => Some(duration_us_to_duration(v)),
TimeUnit::Nanosecond => Some(duration_ns_to_duration(v)),
},
_ => None,
}
}
#[cfg(test)]
mod tests {
use crate::temporal_conversions::{
date64_to_datetime, split_second, timestamp_ms_to_datetime, timestamp_ns_to_datetime,
timestamp_s_to_date, timestamp_s_to_datetime, timestamp_s_to_time,
timestamp_us_to_datetime, NANOSECONDS,
};
use chrono::DateTime;
#[test]
fn test_timestamp_func() {
let timestamp = 1234;
let datetime = timestamp_s_to_datetime(timestamp).unwrap();
let expected_date = datetime.date();
let expected_time = datetime.time();
assert_eq!(
timestamp_s_to_date(timestamp).unwrap().date(),
expected_date
);
assert_eq!(
timestamp_s_to_time(timestamp).unwrap().time(),
expected_time
);
}
#[test]
fn negative_input_timestamp_ns_to_datetime() {
assert_eq!(
timestamp_ns_to_datetime(-1),
DateTime::from_timestamp(-1, 999_999_999).map(|x| x.naive_utc())
);
assert_eq!(
timestamp_ns_to_datetime(-1_000_000_001),
DateTime::from_timestamp(-2, 999_999_999).map(|x| x.naive_utc())
);
}
#[test]
fn negative_input_timestamp_us_to_datetime() {
assert_eq!(
timestamp_us_to_datetime(-1),
DateTime::from_timestamp(-1, 999_999_000).map(|x| x.naive_utc())
);
assert_eq!(
timestamp_us_to_datetime(-1_000_001),
DateTime::from_timestamp(-2, 999_999_000).map(|x| x.naive_utc())
);
}
#[test]
fn negative_input_timestamp_ms_to_datetime() {
assert_eq!(
timestamp_ms_to_datetime(-1),
DateTime::from_timestamp(-1, 999_000_000).map(|x| x.naive_utc())
);
assert_eq!(
timestamp_ms_to_datetime(-1_001),
DateTime::from_timestamp(-2, 999_000_000).map(|x| x.naive_utc())
);
}
#[test]
fn negative_input_date64_to_datetime() {
assert_eq!(
date64_to_datetime(-1),
DateTime::from_timestamp(-1, 999_000_000).map(|x| x.naive_utc())
);
assert_eq!(
date64_to_datetime(-1_001),
DateTime::from_timestamp(-2, 999_000_000).map(|x| x.naive_utc())
);
}
#[test]
fn test_split_seconds() {
let (sec, nano_sec) = split_second(100, NANOSECONDS);
assert_eq!(sec, 0);
assert_eq!(nano_sec, 100);
let (sec, nano_sec) = split_second(123_000_000_456, NANOSECONDS);
assert_eq!(sec, 123);
assert_eq!(nano_sec, 456);
let (sec, nano_sec) = split_second(-1, NANOSECONDS);
assert_eq!(sec, -1);
assert_eq!(nano_sec, 999_999_999);
let (sec, nano_sec) = split_second(-123_000_000_001, NANOSECONDS);
assert_eq!(sec, -124);
assert_eq!(nano_sec, 999_999_999);
}
}