DateTime: manual impl for PartialOrd, PartialEq and Debug

See https://gitlab.freedesktop.org/gstreamer/gstreamer-rs/issues/217
This commit is contained in:
François Laignel 2019-08-21 11:06:03 +02:00
parent f80abb0ba9
commit 1367becfaf
6 changed files with 454 additions and 100 deletions

View file

@ -69,7 +69,6 @@ generate = [
"Gst.ParseFlags", "Gst.ParseFlags",
"Gst.TaskState", "Gst.TaskState",
"Gst.PluginDependencyFlags", "Gst.PluginDependencyFlags",
"Gst.DateTime",
"Gst.BufferPoolAcquireFlags", "Gst.BufferPoolAcquireFlags",
"Gst.PromiseResult", "Gst.PromiseResult",
] ]
@ -1356,3 +1355,10 @@ must_use = true
name = "Gst.ClockReturn" name = "Gst.ClockReturn"
status = "generate" status = "generate"
must_use = true must_use = true
[[object]]
name = "Gst.DateTime"
status = "generate"
[[object.derive]]
# Don't auto-implement traits
name = ""

View file

@ -8,7 +8,7 @@ use glib::GString;
use gst_sys; use gst_sys;
glib_wrapper! { glib_wrapper! {
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord, Hash)] #[derive()]
pub struct DateTime(Shared<gst_sys::GstDateTime>); pub struct DateTime(Shared<gst_sys::GstDateTime>);
match fn { match fn {

View file

@ -6,9 +6,223 @@
// option. This file may not be copied, modified, or distributed // option. This file may not be copied, modified, or distributed
// except according to those terms. // except according to those terms.
use std::cmp;
use std::fmt; use std::fmt;
use DateTime; use DateTime;
impl DateTime {
/// Get the [`DateTime`](struct.DateTime.html) in UTC
pub fn to_utc(&self) -> Option<DateTime> {
if !self.has_time() {
// No time => no TZ offset
return Some(self.clone());
}
assert!(self.has_year() && self.has_month() && self.has_day() && self.has_time());
// Can instantiate `gst::DateTime` without seconds using `gst::DateTime::new`
// with `-1f64` for the `second` argument
// however, the resulting instance can't be translated to `glib::DateTime`
if self.has_second() {
self.to_g_date_time()
.expect("DateTime::to_utc: to_g_date_time")
.to_utc()
.as_ref()
.and_then(DateTime::new_from_g_date_time)
} else {
// It would be cheaper to build a `glib::DateTime` direcly, unfortunetaly
// this would require using `glib::TimeZone::new_offset` which is feature-gated
// to `glib/v2_58`. So we need to build a new `gst::DateTime` with `0f64`
// and then discard seconds again
DateTime::new(
self.get_time_zone_offset(),
self.get_year(),
self.get_month(),
self.get_day(),
self.get_hour(),
self.get_minute(),
0f64,
)
.to_g_date_time()
.expect("DateTime::to_utc: to_g_date_time")
.to_utc()
.map(|g_date_time_utc| {
DateTime::new(
0f32, // UTC TZ offset
g_date_time_utc.get_year(),
g_date_time_utc.get_month(),
g_date_time_utc.get_day_of_month(),
g_date_time_utc.get_hour(),
g_date_time_utc.get_minute(),
-1f64, // No second
)
})
}
}
}
impl cmp::PartialOrd for DateTime {
/// *NOTE 1:* When comparing a partially defined [`DateTime`](struct.DateTime.html) `d1`
/// such as *"2019/8/20"* with a [`DateTime`](struct.DateTime.html) with a time part `d2`
/// such as *"2019/8/20 21:10"*:
///
/// - `d1` includes `d2`,
/// - neither `d1` < `d2` nor `d1` > `d2`,
/// - and `d1` != `d2`,
///
/// so we can only return `None`.
///
/// This is the reason why [`DateTime`](struct.DateTime.html) neither implements
/// [`Ord`](https://doc.rust-lang.org/nightly/std/cmp/trait.Ord.html)
/// nor [`Eq`](https://doc.rust-lang.org/nightly/std/cmp/trait.Eq.html).
///
/// *NOTE 2:* When comparing a [`DateTime`](struct.DateTime.html) `d1` without a TZ offset
/// such as *"2019/8/20"* with a [`DateTime`](struct.DateTime.html) `d2` with a TZ offset
/// such as *"2019/8/20 21:10 +02:00"*, we can't tell in which TZ `d1` is expressed and which
/// time should be considered for an offset, therefore the two [`DateTime`s](struct.DateTime.html)
/// are compared in the same TZ.
fn partial_cmp(&self, other: &Self) -> Option<cmp::Ordering> {
#[inline]
fn get_cmp(delta: i32) -> Option<cmp::Ordering> {
Some(if delta < 0 {
cmp::Ordering::Less
} else if delta == 0 {
cmp::Ordering::Equal
} else {
cmp::Ordering::Greater
})
}
if !(self.has_year() && other.has_year()) {
// Can't compare anything
return None;
}
// Normalize to UTC only if both members have time (see note 2).
let (self_norm, other_norm) = if self.has_time() && other.has_time() {
(self.to_utc()?, other.to_utc()?)
} else {
(self.clone(), other.clone())
};
let year_delta = self_norm.get_year() - other_norm.get_year();
if year_delta != 0 {
return get_cmp(year_delta);
}
// Same year
if !self.has_month() && !other.has_month() {
// Nothing left to compare
return get_cmp(year_delta);
}
if !(self.has_month() && other.has_month()) {
// One has month, the other doesn't => can't compare (note 1)
return None;
}
let month_delta = self_norm.get_month() - other_norm.get_month();
if month_delta != 0 {
return get_cmp(month_delta);
}
// Same year, same month
if !self.has_day() && !other.has_day() {
// Nothing left to compare
return Some(cmp::Ordering::Equal);
}
if !(self.has_day() && other.has_day()) {
// One has day, the other doesn't => can't compare (note 1)
return None;
}
let day_delta = self_norm.get_day() - other_norm.get_day();
if day_delta != 0 {
return get_cmp(day_delta);
}
// Same year, same month, same day
if !self.has_time() && !other.has_time() {
// Nothing left to compare
return Some(cmp::Ordering::Equal);
}
if !(self.has_time() && other.has_time()) {
// One has time, the other doesn't => can't compare (note 1)
return None;
}
let hour_delta = self_norm.get_hour() - other_norm.get_hour();
if hour_delta != 0 {
return get_cmp(hour_delta);
}
let minute_delta = self_norm.get_minute() - other_norm.get_minute();
if minute_delta != 0 {
return get_cmp(minute_delta);
}
// Same year, same month, same day, same time
if !self.has_second() && !other.has_second() {
// Nothing left to compare
return Some(cmp::Ordering::Equal);
}
if !(self.has_second() && other.has_second()) {
// One has second, the other doesn't => can't compare (note 1)
return None;
}
let second_delta = self_norm.get_second() - other_norm.get_second();
if second_delta != 0 {
return get_cmp(second_delta);
}
get_cmp(self_norm.get_microsecond() - other_norm.get_microsecond())
}
}
impl cmp::PartialEq for DateTime {
/// See the notes for the [`DateTime` `PartialOrd` trait](struct.DateTime.html#impl-PartialOrd%3CDateTime%3E)
fn eq(&self, other: &Self) -> bool {
self.partial_cmp(other)
.map_or_else(|| false, |cmp| cmp == cmp::Ordering::Equal)
}
}
impl fmt::Debug for DateTime {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
let mut debug_struct = f.debug_struct("DateTime");
if self.has_year() {
debug_struct.field("year", &self.get_year());
}
if self.has_month() {
debug_struct.field("month", &self.get_month());
}
if self.has_day() {
debug_struct.field("day", &self.get_day());
}
if self.has_time() {
debug_struct.field("hour", &self.get_hour());
debug_struct.field("minute", &self.get_minute());
if self.has_second() {
debug_struct.field("second", &self.get_second());
debug_struct.field("microsecond", &self.get_microsecond());
}
debug_struct.field("tz_offset", &self.get_time_zone_offset());
}
debug_struct.finish()
}
}
impl fmt::Display for DateTime { impl fmt::Display for DateTime {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.write_str( f.write_str(
@ -18,3 +232,198 @@ impl fmt::Display for DateTime {
) )
} }
} }
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_to_utc() {
::init().unwrap();
// Hour offset
let utc_date_time = DateTime::new(2f32, 2019, 8, 20, 20, 9, 42.123_456f64)
.to_utc()
.unwrap();
assert_eq!(utc_date_time.get_year(), 2019);
assert_eq!(utc_date_time.get_month(), 8);
assert_eq!(utc_date_time.get_day(), 20);
assert_eq!(utc_date_time.get_hour(), 18);
assert_eq!(utc_date_time.get_minute(), 9);
assert_eq!(utc_date_time.get_second(), 42);
assert_eq!(utc_date_time.get_microsecond(), 123_456);
// Year, month, day and hour offset
let utc_date_time = DateTime::new(2f32, 2019, 1, 1, 0, 0, 42.123_456f64)
.to_utc()
.unwrap();
assert_eq!(utc_date_time.get_year(), 2018);
assert_eq!(utc_date_time.get_month(), 12);
assert_eq!(utc_date_time.get_day(), 31);
assert_eq!(utc_date_time.get_hour(), 22);
assert_eq!(utc_date_time.get_minute(), 0);
assert_eq!(utc_date_time.get_second(), 42);
assert_eq!(utc_date_time.get_microsecond(), 123_456);
// Date without an hour (which implies no TZ)
let utc_date_time = DateTime::new_ymd(2019, 1, 1).to_utc().unwrap();
assert_eq!(utc_date_time.get_year(), 2019);
assert_eq!(utc_date_time.get_month(), 1);
assert_eq!(utc_date_time.get_day(), 1);
assert!(!utc_date_time.has_time());
assert!(!utc_date_time.has_second());
// Date without seconds
let utc_date_time = DateTime::new(2f32, 2018, 5, 28, 16, 6, -1f64)
.to_utc()
.unwrap();
assert_eq!(utc_date_time.get_year(), 2018);
assert_eq!(utc_date_time.get_month(), 5);
assert_eq!(utc_date_time.get_day(), 28);
assert_eq!(utc_date_time.get_hour(), 14);
assert_eq!(utc_date_time.get_minute(), 6);
assert!(!utc_date_time.has_second());
}
#[test]
fn test_partial_ord() {
::init().unwrap();
// Different years
assert!(
DateTime::new(2f32, 2020, 8, 20, 19, 43, 42.123_456f64)
> DateTime::new(2f32, 2019, 8, 20, 19, 43, 42.123_456f64)
);
// Different months (order intentionally reversed)
assert!(
DateTime::new(2f32, 2019, 8, 20, 19, 43, 42.123_456f64)
< DateTime::new(2f32, 2019, 9, 19, 19, 43, 42.123_456f64)
);
// Different days
assert!(
DateTime::new(2f32, 2019, 8, 21, 19, 43, 42.123_456f64)
> DateTime::new(2f32, 2019, 8, 20, 19, 43, 42.123_456f64)
);
// Different hours
assert!(
DateTime::new(2f32, 2019, 8, 20, 19, 44, 42.123_456f64)
> DateTime::new(2f32, 2019, 8, 20, 19, 43, 42.123_456f64)
);
// Different minutes
assert!(
DateTime::new(2f32, 2019, 8, 20, 19, 43, 44.123_456f64)
> DateTime::new(2f32, 2019, 8, 20, 19, 43, 42.123_456f64)
);
// Different seconds
assert!(
DateTime::new(2f32, 2019, 8, 20, 19, 43, 43.123_456f64)
> DateTime::new(2f32, 2019, 8, 20, 19, 43, 42.123_456f64)
);
// Different micro-seconds
assert!(
DateTime::new(2f32, 2019, 8, 20, 19, 43, 42.123_457f64)
> DateTime::new(2f32, 2019, 8, 20, 19, 43, 42.123_456f64)
);
// Different TZ offsets
assert!(
DateTime::new(1f32, 2019, 8, 20, 19, 43, 42.123_456f64)
> DateTime::new(2f32, 2019, 8, 20, 19, 43, 42.123_456f64)
);
// TZ offset leading to year, month, day, hour offset
assert!(
DateTime::new(2f32, 2019, 1, 1, 0, 0, 0f64)
< DateTime::new(1f32, 2018, 12, 31, 23, 59, 0f64)
);
// Partially defined `DateTime`
assert!(DateTime::new_ymd(2020, 8, 20) > DateTime::new_ymd(2019, 8, 20));
assert!(DateTime::new_ymd(2019, 9, 20) > DateTime::new_ymd(2019, 8, 20));
assert!(DateTime::new_ymd(2019, 8, 21) > DateTime::new_ymd(2019, 8, 20));
assert!(DateTime::new_ym(2020, 8) > DateTime::new_ym(2019, 8));
assert!(DateTime::new_ym(2019, 9) > DateTime::new_ym(2019, 8));
assert!(DateTime::new_ym(2019, 9) > DateTime::new_ymd(2019, 8, 20));
assert!(DateTime::new_y(2020) > DateTime::new_y(2019));
assert!(DateTime::new_ym(2020, 1) > DateTime::new_y(2019));
assert!(
DateTime::new(2f32, 2019, 8, 20, 19, 43, 44.123_456f64)
< DateTime::new_ymd(2020, 8, 20)
);
assert!(
DateTime::new_ymd(2020, 8, 20)
> DateTime::new(2f32, 2019, 8, 20, 19, 43, 44.123_456f64)
);
// Comparison occurs on the same TZ when the `DateTime` doesn't have time (note 2)
assert!(DateTime::new_ymd(2020, 1, 1) > DateTime::new(-2f32, 2019, 12, 31, 23, 59, 0f64));
// In the following cases, the partially defined `DateTime` is a range WRT
// the fully defined `DateTime` and this range includes the fully defined `DateTime`,
// but we can't tell if it's before or after and they are not equal (note 1)
assert!(DateTime::new(2f32, 2019, 8, 20, 19, 43, 44.123_456f64)
.partial_cmp(&DateTime::new_ymd(2019, 8, 20))
.is_none());
assert!(DateTime::new_ymd(2019, 8, 20)
.partial_cmp(&DateTime::new(2f32, 2019, 8, 20, 19, 43, 44.123_456f64))
.is_none());
assert!(DateTime::new_ym(2019, 1)
.partial_cmp(&DateTime::new_y(2019))
.is_none());
}
#[test]
fn test_eq() {
::init().unwrap();
assert_eq!(
DateTime::new(2f32, 2018, 5, 28, 16, 6, 42.123_456f64),
DateTime::new(2f32, 2018, 5, 28, 16, 6, 42.123_456f64)
);
assert_eq!(
DateTime::new(2f32, 2018, 5, 28, 16, 6, 0f64),
DateTime::new(2f32, 2018, 5, 28, 16, 6, 0f64)
);
assert_eq!(
DateTime::new(2f32, 2018, 5, 28, 16, 6, -1f64),
DateTime::new(2f32, 2018, 5, 28, 16, 6, -1f64)
);
assert_eq!(
DateTime::new_ymd(2018, 5, 28),
DateTime::new_ymd(2018, 5, 28)
);
// In the following cases, the partially defined `DateTime` is a range WRT
// the fully defined `DateTime` and this range includes the fully defined `DateTime`,
// but they are not equal (note 1)
assert_ne!(
DateTime::new_ymd(2018, 5, 28),
DateTime::new(2f32, 2018, 5, 28, 16, 6, -1f64)
);
assert_ne!(
DateTime::new(2f32, 2018, 5, 28, 16, 6, -1f64),
DateTime::new_ym(2018, 5)
);
assert_ne!(
DateTime::new(2f32, 2018, 5, 28, 16, 6, -1f64),
DateTime::new_y(2018)
);
}
}

View file

@ -205,62 +205,35 @@ mod tests {
fn test_deserialize() { fn test_deserialize() {
::init().unwrap(); ::init().unwrap();
// FIXME: compare `DateTime`s instances
// See https://gitlab.freedesktop.org/gstreamer/gstreamer-rs/issues/217
let datetime_ron = "YMDhmsTz(2018, 5, 28, 16, 6, 42.123456, 2)"; let datetime_ron = "YMDhmsTz(2018, 5, 28, 16, 6, 42.123456, 2)";
let datetime_de: DateTime = ron::de::from_str(datetime_ron).unwrap(); let datetime_de: DateTime = ron::de::from_str(datetime_ron).unwrap();
assert_eq!(datetime_de.get_time_zone_offset(), 2f32); assert_eq!(
assert_eq!(datetime_de.get_year(), 2018); datetime_de,
assert_eq!(datetime_de.get_month(), 5); DateTime::new(2f32, 2018, 5, 28, 16, 6, 42.123_456f64)
assert_eq!(datetime_de.get_day(), 28); );
assert_eq!(datetime_de.get_hour(), 16);
assert_eq!(datetime_de.get_minute(), 6);
assert_eq!(datetime_de.get_second(), 42);
assert_eq!(datetime_de.get_microsecond(), 123_456);
let datetime_json = r#"{"YMDhmsTz":[2018,5,28,16,6,42.123456,2.0]}"#; let datetime_json = r#"{"YMDhmsTz":[2018,5,28,16,6,42.123456,2.0]}"#;
let datetime_de: DateTime = serde_json::from_str(datetime_json).unwrap(); let datetime_de: DateTime = serde_json::from_str(datetime_json).unwrap();
assert_eq!(datetime_de.get_time_zone_offset(), 2f32); assert_eq!(
assert_eq!(datetime_de.get_year(), 2018); datetime_de,
assert_eq!(datetime_de.get_month(), 5); DateTime::new(2f32, 2018, 5, 28, 16, 6, 42.123_456f64)
assert_eq!(datetime_de.get_day(), 28); );
assert_eq!(datetime_de.get_hour(), 16);
assert_eq!(datetime_de.get_minute(), 6);
assert_eq!(datetime_de.get_second(), 42);
assert_eq!(datetime_de.get_microsecond(), 123_456);
let datetime_ron = "YMDhmTz(2018, 5, 28, 16, 6, 2)"; let datetime_ron = "YMDhmTz(2018, 5, 28, 16, 6, 2)";
let datetime_de: DateTime = ron::de::from_str(datetime_ron).unwrap(); let datetime_de: DateTime = ron::de::from_str(datetime_ron).unwrap();
assert!(datetime_de.has_time()); assert_eq!(datetime_de, DateTime::new(2f32, 2018, 5, 28, 16, 6, -1f64));
assert!(!datetime_de.has_second());
assert_eq!(datetime_de.get_time_zone_offset(), 2f32);
assert_eq!(datetime_de.get_year(), 2018);
assert_eq!(datetime_de.get_month(), 5);
assert_eq!(datetime_de.get_day(), 28);
assert_eq!(datetime_de.get_hour(), 16);
assert_eq!(datetime_de.get_minute(), 6);
let datetime_ron = "YMD(2018, 5, 28)"; let datetime_ron = "YMD(2018, 5, 28)";
let datetime_de: DateTime = ron::de::from_str(datetime_ron).unwrap(); let datetime_de: DateTime = ron::de::from_str(datetime_ron).unwrap();
assert!(datetime_de.has_day()); assert_eq!(datetime_de, DateTime::new_ymd(2018, 5, 28));
assert!(!datetime_de.has_time());
assert_eq!(datetime_de.get_year(), 2018);
assert_eq!(datetime_de.get_month(), 5);
assert_eq!(datetime_de.get_day(), 28);
let datetime_ron = "YM(2018, 5)"; let datetime_ron = "YM(2018, 5)";
let datetime_de: DateTime = ron::de::from_str(datetime_ron).unwrap(); let datetime_de: DateTime = ron::de::from_str(datetime_ron).unwrap();
assert!(datetime_de.has_month()); assert_eq!(datetime_de, DateTime::new_ym(2018, 5));
assert!(!datetime_de.has_day());
assert_eq!(datetime_de.get_year(), 2018);
assert_eq!(datetime_de.get_month(), 5);
let datetime_ron = "Y(2018)"; let datetime_ron = "Y(2018)";
let datetime_de: DateTime = ron::de::from_str(datetime_ron).unwrap(); let datetime_de: DateTime = ron::de::from_str(datetime_ron).unwrap();
assert!(datetime_de.has_year()); assert_eq!(datetime_de, DateTime::new_y(2018));
assert!(!datetime_de.has_month());
assert_eq!(datetime_de.get_year(), 2018);
} }
#[test] #[test]
@ -270,55 +243,26 @@ mod tests {
let datetime = DateTime::new(2f32, 2018, 5, 28, 16, 6, 42.123_456f64); let datetime = DateTime::new(2f32, 2018, 5, 28, 16, 6, 42.123_456f64);
let datetime_ser = ron::ser::to_string(&datetime).unwrap(); let datetime_ser = ron::ser::to_string(&datetime).unwrap();
let datetime_de: DateTime = ron::de::from_str(datetime_ser.as_str()).unwrap(); let datetime_de: DateTime = ron::de::from_str(datetime_ser.as_str()).unwrap();
assert_eq!( assert_eq!(datetime_de, datetime);
datetime_de.get_time_zone_offset(),
datetime.get_time_zone_offset()
);
assert_eq!(datetime_de.get_year(), datetime.get_year());
assert_eq!(datetime_de.get_month(), datetime.get_month());
assert_eq!(datetime_de.get_day(), datetime.get_day());
assert_eq!(datetime_de.get_hour(), datetime.get_hour());
assert_eq!(datetime_de.get_minute(), datetime.get_minute());
assert_eq!(datetime_de.get_second(), datetime.get_second());
assert_eq!(datetime_de.get_microsecond(), datetime.get_microsecond());
let datetime = DateTime::new(2f32, 2018, 5, 28, 16, 6, -1f64); let datetime = DateTime::new(2f32, 2018, 5, 28, 16, 6, -1f64);
let datetime_ser = ron::ser::to_string(&datetime).unwrap(); let datetime_ser = ron::ser::to_string(&datetime).unwrap();
let datetime_de: DateTime = ron::de::from_str(datetime_ser.as_str()).unwrap(); let datetime_de: DateTime = ron::de::from_str(datetime_ser.as_str()).unwrap();
assert!(datetime_de.has_time()); assert_eq!(datetime_de, datetime);
assert!(!datetime_de.has_second());
assert_eq!(
datetime_de.get_time_zone_offset(),
datetime.get_time_zone_offset()
);
assert_eq!(datetime_de.get_year(), datetime.get_year());
assert_eq!(datetime_de.get_month(), datetime.get_month());
assert_eq!(datetime_de.get_day(), datetime.get_day());
assert_eq!(datetime_de.get_hour(), datetime.get_hour());
assert_eq!(datetime_de.get_minute(), datetime.get_minute());
let datetime = DateTime::new_ymd(2018, 5, 28); let datetime = DateTime::new_ymd(2018, 5, 28);
let datetime_ser = ron::ser::to_string(&datetime).unwrap(); let datetime_ser = ron::ser::to_string(&datetime).unwrap();
let datetime_de: DateTime = ron::de::from_str(datetime_ser.as_str()).unwrap(); let datetime_de: DateTime = ron::de::from_str(datetime_ser.as_str()).unwrap();
assert!(datetime_de.has_day()); assert_eq!(datetime_de, datetime);
assert!(!datetime_de.has_time());
assert_eq!(datetime_de.get_year(), datetime.get_year());
assert_eq!(datetime_de.get_month(), datetime.get_month());
assert_eq!(datetime_de.get_day(), datetime.get_day());
let datetime = DateTime::new_ym(2018, 5); let datetime = DateTime::new_ym(2018, 5);
let datetime_ser = ron::ser::to_string(&datetime).unwrap(); let datetime_ser = ron::ser::to_string(&datetime).unwrap();
let datetime_de: DateTime = ron::de::from_str(datetime_ser.as_str()).unwrap(); let datetime_de: DateTime = ron::de::from_str(datetime_ser.as_str()).unwrap();
assert!(datetime_de.has_month()); assert_eq!(datetime_de, datetime);
assert!(!datetime_de.has_day());
assert_eq!(datetime_de.get_year(), datetime.get_year());
assert_eq!(datetime_de.get_month(), datetime.get_month());
let datetime = DateTime::new_y(2018); let datetime = DateTime::new_y(2018);
let datetime_ser = ron::ser::to_string(&datetime).unwrap(); let datetime_ser = ron::ser::to_string(&datetime).unwrap();
let datetime_de: DateTime = ron::de::from_str(datetime_ser.as_str()).unwrap(); let datetime_de: DateTime = ron::de::from_str(datetime_ser.as_str()).unwrap();
assert!(datetime_de.has_year()); assert_eq!(datetime_de, datetime);
assert!(!datetime_de.has_month());
assert_eq!(datetime_de.get_year(), datetime.get_year());
} }
} }

View file

@ -491,12 +491,10 @@ mod tests {
tags.get_index::<Date>(0).unwrap().get().unwrap(), tags.get_index::<Date>(0).unwrap().get().unwrap(),
glib::Date::new_dmy(28, glib::DateMonth::May, 2018) glib::Date::new_dmy(28, glib::DateMonth::May, 2018)
); );
// FIXME: compare `DateTime` instances assert_eq!(
// See https://gitlab.freedesktop.org/gstreamer/gstreamer-rs/issues/217 tags.get_index::<DateTime>(0).unwrap().get().unwrap(),
let datetime = tags.get_index::<DateTime>(0).unwrap().get().unwrap(); ::DateTime::new_ymd(2018, 5, 28)
assert_eq!(datetime.get_year(), 2018); );
assert_eq!(datetime.get_month(), 5);
assert_eq!(datetime.get_day(), 28);
let sample = tags.get_index::<Image>(0).unwrap().get().unwrap(); let sample = tags.get_index::<Image>(0).unwrap().get().unwrap();
let buffer = sample.get_buffer().unwrap(); let buffer = sample.get_buffer().unwrap();
{ {
@ -532,12 +530,10 @@ mod tests {
tags.get_index::<Date>(0).unwrap().get().unwrap(), tags.get_index::<Date>(0).unwrap().get().unwrap(),
glib::Date::new_dmy(28, glib::DateMonth::May, 2018) glib::Date::new_dmy(28, glib::DateMonth::May, 2018)
); );
// FIXME: compare `DateTime` instances assert_eq!(
// See https://gitlab.freedesktop.org/gstreamer/gstreamer-rs/issues/217 tags.get_index::<DateTime>(0).unwrap().get().unwrap(),
let datetime = tags.get_index::<DateTime>(0).unwrap().get().unwrap(); ::DateTime::new_ymd(2018, 5, 28)
assert_eq!(datetime.get_year(), 2018); );
assert_eq!(datetime.get_month(), 5);
assert_eq!(datetime.get_day(), 28);
let sample = tags.get_index::<Image>(0).unwrap().get().unwrap(); let sample = tags.get_index::<Image>(0).unwrap().get().unwrap();
let buffer = sample.get_buffer().unwrap(); let buffer = sample.get_buffer().unwrap();
{ {
@ -606,10 +602,10 @@ mod tests {
tags_de.get_index::<Date>(0).unwrap().get(), tags_de.get_index::<Date>(0).unwrap().get(),
tags.get_index::<Date>(0).unwrap().get(), tags.get_index::<Date>(0).unwrap().get(),
); );
let datetime = tags.get_index::<DateTime>(0).unwrap().get().unwrap(); assert_eq!(
assert_eq!(datetime.get_year(), 2018); tags.get_index::<DateTime>(0).unwrap().get().unwrap(),
assert_eq!(datetime.get_month(), 5); ::DateTime::new_ymd(2018, 5, 28)
assert_eq!(datetime.get_day(), 28); );
let sample = tags.get_index::<Image>(0).unwrap().get().unwrap(); let sample = tags.get_index::<Image>(0).unwrap().get().unwrap();
let buffer = sample.get_buffer().unwrap(); let buffer = sample.get_buffer().unwrap();
{ {

View file

@ -645,9 +645,10 @@ mod tests {
assert!(slice[2].get::<String>().expect("slice[2]").is_none()); assert!(slice[2].get::<String>().expect("slice[2]").is_none());
// FIXME: compare `DateTime` instances assert_eq!(
// See https://gitlab.freedesktop.org/gstreamer/gstreamer-rs/issues/217 DateTime::new(2f32, 2019, 8, 19, 13, 34, 42f64),
assert!(slice[3].get::<DateTime>().expect("slice[3]").is_some()); slice[3].get::<DateTime>().expect("slice[3]").unwrap()
);
assert!(slice[4].get::<DateTime>().expect("slice[4]").is_none()); assert!(slice[4].get::<DateTime>().expect("slice[4]").is_none());
} }
@ -753,12 +754,10 @@ mod tests {
assert!(slice[2].get::<String>().expect("slice[2]").is_none()); assert!(slice[2].get::<String>().expect("slice[2]").is_none());
// FIXME: compare `DateTime` instances assert_eq!(
// See https://gitlab.freedesktop.org/gstreamer/gstreamer-rs/issues/217 slice_de[3].get::<DateTime>().expect("slice_de[3]").unwrap(),
assert!(slice_de[3] slice[3].get::<DateTime>().expect("slice[3]").unwrap()
.get::<DateTime>() );
.expect("slice_de[3]")
.is_some());
assert!(slice[4].get::<DateTime>().expect("slice[4]").is_none()); assert!(slice[4].get::<DateTime>().expect("slice[4]").is_none());
} }