use serde::{
de,
de::{Deserialize, Deserializer},
ser::{Serialize, Serializer},
};
use crate::{
format::{FormattedValue, FormattedValueIntrinsic, SpecificFormattedValueIntrinsic},
Format, FormattedSegment, GenericFormattedValue, Segment, SegmentFlags,
};
#[derive(serde::Serialize, serde::Deserialize)]
struct FormattedSegmentSerde {
flags: SegmentFlags,
rate: f64,
applied_rate: f64,
format: Format,
base: i64,
offset: i64,
start: i64,
stop: i64,
time: i64,
position: i64,
duration: i64,
}
impl<T: FormattedValueIntrinsic> Serialize for FormattedSegment<T> {
fn serialize<S: Serializer>(&self, serializer: S) -> Result<S::Ok, S::Error> {
let fmt_seg = unsafe {
FormattedSegmentSerde {
flags: self.flags(),
rate: self.rate(),
applied_rate: self.applied_rate(),
format: self.format(),
base: self.base().into_raw_value(),
offset: self.offset().into_raw_value(),
start: self.start().into_raw_value(),
stop: self.stop().into_raw_value(),
time: self.time().into_raw_value(),
position: self.position().into_raw_value(),
duration: self.duration().into_raw_value(),
}
};
fmt_seg.serialize(serializer)
}
}
impl<'de> Deserialize<'de> for Segment {
fn deserialize<D: Deserializer<'de>>(deserializer: D) -> Result<Self, D::Error> {
skip_assert_initialized!();
FormattedSegmentSerde::deserialize(deserializer).map(|fmt_seg_de| {
let mut segment = Self::new();
segment.set_flags(fmt_seg_de.flags);
segment.set_rate(fmt_seg_de.rate);
segment.set_applied_rate(fmt_seg_de.applied_rate);
segment.set_format(fmt_seg_de.format);
segment.set_base(GenericFormattedValue::new(
fmt_seg_de.format,
fmt_seg_de.base,
));
segment.set_offset(GenericFormattedValue::new(
fmt_seg_de.format,
fmt_seg_de.offset,
));
segment.set_start(GenericFormattedValue::new(
fmt_seg_de.format,
fmt_seg_de.start,
));
segment.set_stop(GenericFormattedValue::new(
fmt_seg_de.format,
fmt_seg_de.stop,
));
segment.set_time(GenericFormattedValue::new(
fmt_seg_de.format,
fmt_seg_de.time,
));
segment.set_position(GenericFormattedValue::new(
fmt_seg_de.format,
fmt_seg_de.position,
));
segment.set_duration(GenericFormattedValue::new(
fmt_seg_de.format,
fmt_seg_de.duration,
));
segment
})
}
}
impl<'de, T: SpecificFormattedValueIntrinsic> Deserialize<'de> for FormattedSegment<T> {
fn deserialize<D: Deserializer<'de>>(deserializer: D) -> Result<Self, D::Error> {
skip_assert_initialized!();
Segment::deserialize(deserializer).and_then(|segment| {
segment.downcast::<T>().map_err(|segment| {
de::Error::custom(format!(
"failed to convert segment with format {:?} to {:?}",
segment.format(),
T::default_format(),
))
})
})
}
}
#[cfg(test)]
mod tests {
use crate::{ClockTime, Format, GenericFormattedValue, Segment, SegmentFlags};
#[test]
fn test_serialize() {
crate::init().unwrap();
let mut segment = Segment::new();
segment.set_flags(SegmentFlags::RESET | SegmentFlags::SEGMENT);
segment.set_rate(1f64);
segment.set_applied_rate(0.9f64);
segment.set_format(Format::Time);
segment.set_base(GenericFormattedValue::from(ClockTime::from_nseconds(123)));
segment.set_offset(GenericFormattedValue::from(ClockTime::from_nseconds(42)));
segment.set_start(GenericFormattedValue::from(ClockTime::from_nseconds(1024)));
segment.set_stop(GenericFormattedValue::from(ClockTime::from_nseconds(2048)));
segment.set_time(GenericFormattedValue::from(ClockTime::from_nseconds(1042)));
segment.set_position(GenericFormattedValue::from(ClockTime::from_nseconds(256)));
segment.set_duration(GenericFormattedValue::from(ClockTime::NONE));
let pretty_config = ron::ser::PrettyConfig::new().new_line("".to_string());
let res = ron::ser::to_string_pretty(&segment, pretty_config);
assert_eq!(
Ok(concat!(
"(",
" flags: \"reset+segment\",",
" rate: 1.0,",
" applied_rate: 0.9,",
" format: Time,",
" base: 123,",
" offset: 42,",
" start: 1024,",
" stop: 2048,",
" time: 1042,",
" position: 256,",
" duration: -1,",
")"
)
.to_owned()),
res,
);
}
#[test]
fn test_deserialize_segment() {
crate::init().unwrap();
let segment_ron = r#"
(
flags: "reset+segment",
rate: 1,
applied_rate: 0.9,
format: Time,
base: 123,
offset: 42,
start: 1024,
stop: 2048,
time: 1042,
position: 256,
duration: -1,
)
"#;
let segment: Segment = ron::de::from_str(segment_ron).unwrap();
assert_eq!(segment.flags(), SegmentFlags::RESET | SegmentFlags::SEGMENT);
assert!((segment.rate() - 1f64).abs() < std::f64::EPSILON);
assert!((segment.applied_rate() - 0.9f64).abs() < std::f64::EPSILON);
assert_eq!(segment.format(), Format::Time);
assert_eq!(segment.flags(), SegmentFlags::RESET | SegmentFlags::SEGMENT);
assert!((segment.rate() - 1f64).abs() < std::f64::EPSILON);
assert!((segment.applied_rate() - 0.9f64).abs() < std::f64::EPSILON);
assert_eq!(segment.format(), Format::Time);
assert_eq!(
segment.base(),
GenericFormattedValue::from(ClockTime::from_nseconds(123)),
);
assert_eq!(
segment.offset(),
GenericFormattedValue::from(ClockTime::from_nseconds(42)),
);
assert_eq!(
segment.start(),
GenericFormattedValue::from(ClockTime::from_nseconds(1024)),
);
assert_eq!(
segment.stop(),
GenericFormattedValue::from(ClockTime::from_nseconds(2048)),
);
assert_eq!(
segment.time(),
GenericFormattedValue::from(ClockTime::from_nseconds(1042)),
);
assert_eq!(
segment.position(),
GenericFormattedValue::from(ClockTime::from_nseconds(256)),
);
assert_eq!(
segment.duration(),
GenericFormattedValue::from(ClockTime::NONE),
);
}
#[test]
fn test_deserialize_formatted() {
use crate::{format::Time, FormattedSegment};
crate::init().unwrap();
let segment_ron = r#"
(
flags: "reset+segment",
rate: 1,
applied_rate: 0.9,
format: Time,
base: 123,
offset: 42,
start: 1024,
stop: 2048,
time: 1042,
position: 256,
duration: -1,
)
"#;
let fmt_seg: FormattedSegment<Time> = ron::de::from_str(segment_ron).unwrap();
assert_eq!(fmt_seg.flags(), SegmentFlags::RESET | SegmentFlags::SEGMENT);
assert!((fmt_seg.rate() - 1f64).abs() < std::f64::EPSILON);
assert!((fmt_seg.applied_rate() - 0.9f64).abs() < std::f64::EPSILON);
assert_eq!(fmt_seg.format(), Format::Time);
assert_eq!(fmt_seg.base(), Some(ClockTime::from_nseconds(123)));
assert_eq!(fmt_seg.offset(), Some(ClockTime::from_nseconds(42)));
assert_eq!(fmt_seg.start(), Some(ClockTime::from_nseconds(1024)));
assert_eq!(fmt_seg.stop(), Some(ClockTime::from_nseconds(2048)));
assert_eq!(fmt_seg.time(), Some(ClockTime::from_nseconds(1042)));
assert_eq!(fmt_seg.position(), Some(ClockTime::from_nseconds(256)));
assert_eq!(fmt_seg.duration(), ClockTime::NONE);
}
#[test]
fn test_serde_roundtrip() {
crate::init().unwrap();
let mut segment = Segment::new();
segment.set_flags(SegmentFlags::RESET | SegmentFlags::SEGMENT);
segment.set_rate(1f64);
segment.set_applied_rate(0.9f64);
segment.set_format(Format::Time);
segment.set_base(GenericFormattedValue::from(ClockTime::from_nseconds(123)));
segment.set_offset(GenericFormattedValue::from(ClockTime::from_nseconds(42)));
segment.set_start(GenericFormattedValue::from(ClockTime::from_nseconds(1024)));
segment.set_stop(GenericFormattedValue::from(ClockTime::from_nseconds(2048)));
segment.set_time(GenericFormattedValue::from(ClockTime::from_nseconds(1042)));
segment.set_position(GenericFormattedValue::from(ClockTime::from_nseconds(256)));
segment.set_duration(GenericFormattedValue::from(ClockTime::NONE));
let segment_se = ron::ser::to_string(&segment).unwrap();
let segment_de: Segment = ron::de::from_str(segment_se.as_str()).unwrap();
assert_eq!(segment_de.flags(), segment.flags());
assert!((segment_de.rate() - segment.rate()).abs() < std::f64::EPSILON);
assert!((segment_de.applied_rate() - segment.applied_rate()).abs() < std::f64::EPSILON);
assert_eq!(segment_de.format(), segment.format());
assert_eq!(segment_de.base(), segment.base());
assert_eq!(segment_de.offset(), segment.offset());
assert_eq!(segment_de.start(), segment.start());
assert_eq!(segment_de.stop(), segment.stop());
assert_eq!(segment_de.time(), segment.time());
assert_eq!(segment_de.position(), segment.position());
assert_eq!(segment_de.duration(), segment.duration());
}
}