// Take a look at the license at the top of the repository in the LICENSE file. #![allow(clippy::upper_case_acronyms)] use std::convert::{TryFrom, TryInto}; use glib::translate::{FromGlib, IntoGlib}; use glib::value::{ToValue, ToValueOptional}; use glib::StaticType; use crate::DateTime; use serde::de::{Deserialize, Deserializer, Error}; use serde::ser; use serde::ser::{Serialize, Serializer}; #[derive(serde::Serialize, serde::Deserialize)] enum DateTimeVariants { Y(i32), YM(i32, i32), YMD(i32, i32, i32), YMDhmTz(i32, i32, i32, i32, i32, f32), YMDhmsTz(i32, i32, i32, i32, i32, f64, f32), } // Note: ser / de for `glib::Date` should be implemented in the `glib` crate // However, there is no `ser_de` feature in `glib` right now. The limitation is that // `Date` fields can only be ser / de when they are used in `Value`s (which implies // `Array`s, `List`s, `Structure` fields and `Tag`s) pub(crate) struct Date(glib::Date); impl From for Date { fn from(glib_date: glib::Date) -> Self { skip_assert_initialized!(); Date(glib_date) } } impl ToValue for Date { fn to_value(&self) -> glib::Value { self.0.to_value() } fn value_type(&self) -> glib::Type { glib::Date::static_type() } } impl ToValueOptional for Date { fn to_value_optional(s: Option<&Self>) -> glib::Value { skip_assert_initialized!(); s.map(|s| &s.0).to_value() } } impl StaticType for Date { fn static_type() -> glib::Type { glib::Date::static_type() } } impl<'a> Serialize for Date { fn serialize(&self, serializer: S) -> Result { DateTimeVariants::YMD( self.0.year() as i32, self.0.month().into_glib() as i32, self.0.day() as i32, ) .serialize(serializer) } } impl<'a> Serialize for DateTime { fn serialize(&self, serializer: S) -> Result { let variant = if self.has_second() { DateTimeVariants::YMDhmsTz( self.year(), self.month().unwrap(), self.day().unwrap(), self.hour().unwrap(), self.minute().unwrap(), f64::from(self.second().unwrap()) + f64::from(self.microsecond().unwrap()) / 1_000_000f64, self.time_zone_offset().unwrap(), ) } else if self.has_time() { DateTimeVariants::YMDhmTz( self.year(), self.month().unwrap(), self.day().unwrap(), self.hour().unwrap(), self.minute().unwrap(), self.time_zone_offset().unwrap(), ) } else if self.has_day() { DateTimeVariants::YMD(self.year(), self.month().unwrap(), self.day().unwrap()) } else if self.has_month() { DateTimeVariants::YM(self.year(), self.month().unwrap()) } else if self.has_year() { DateTimeVariants::Y(self.year()) } else { return Err(ser::Error::custom(format!( "no parts could be found in `DateTime` {}", self, ))); }; variant.serialize(serializer) } } impl TryFrom for Date { type Error = glib::BoolError; fn try_from(dt_variant: DateTimeVariants) -> Result { skip_assert_initialized!(); match dt_variant { DateTimeVariants::YMD(y, m, d) => { let month = unsafe { glib::DateMonth::from_glib(m) }; if let glib::DateMonth::__Unknown(_) = month { return Err(glib::bool_error!("Out of range `month` for `Date`")); } Ok(Date(glib::Date::new_dmy( d.try_into() .map_err(|_| glib::bool_error!("Out of range `day` for `Date`"))?, month, y.try_into() .map_err(|_| glib::bool_error!("Out of range `year` for `Date`"))?, )?)) } _ => Err(glib::bool_error!( "Incompatible variant for `Date` (expecting \"YMD\")" )), } } } impl<'de> Deserialize<'de> for Date { fn deserialize>(deserializer: D) -> Result { skip_assert_initialized!(); DateTimeVariants::deserialize(deserializer) .and_then(|dt_variant| dt_variant.try_into().map_err(D::Error::custom)) } } #[allow(clippy::many_single_char_names)] impl TryFrom for DateTime { type Error = glib::BoolError; fn try_from(dt_variant: DateTimeVariants) -> Result { skip_assert_initialized!(); match dt_variant { DateTimeVariants::Y(y) => DateTime::new_y(y), DateTimeVariants::YM(y, m) => DateTime::new_ym(y, m), DateTimeVariants::YMD(y, m, d) => DateTime::new_ymd(y, m, d), DateTimeVariants::YMDhmTz(y, m, d, h, mn, tz) => { DateTime::new(tz, y, m, d, h, mn, None) } DateTimeVariants::YMDhmsTz(y, m, d, h, mn, s, tz) => { DateTime::new(tz, y, m, d, h, mn, s) } } } } impl<'de> Deserialize<'de> for DateTime { fn deserialize>(deserializer: D) -> Result { skip_assert_initialized!(); DateTimeVariants::deserialize(deserializer) .and_then(|dt_variant| dt_variant.try_into().map_err(D::Error::custom)) } } #[cfg(test)] mod tests { use crate::DateTime; #[test] fn test_serialize() { crate::init().unwrap(); let pretty_config = ron::ser::PrettyConfig::new().with_new_line("".to_string()); let datetime = DateTime::new(2f32, 2018, 5, 28, 16, 6, 42.123_456f64).unwrap(); let res = ron::ser::to_string_pretty(&datetime, pretty_config.clone()); assert_eq!( Ok("YMDhmsTz(2018, 5, 28, 16, 6, 42.123456, 2)".to_owned()), res, ); let res = serde_json::to_string(&datetime).unwrap(); assert_eq!( r#"{"YMDhmsTz":[2018,5,28,16,6,42.123456,2.0]}"#.to_owned(), res ); let datetime = DateTime::new(2f32, 2018, 5, 28, 16, 6, None).unwrap(); let res = ron::ser::to_string_pretty(&datetime, pretty_config.clone()); assert_eq!(Ok("YMDhmTz(2018, 5, 28, 16, 6, 2)".to_owned()), res,); let datetime = DateTime::new_ymd(2018, 5, 28).unwrap(); let res = ron::ser::to_string_pretty(&datetime, pretty_config.clone()); assert_eq!(Ok("YMD(2018, 5, 28)".to_owned()), res); let datetime = DateTime::new_ym(2018, 5).unwrap(); let res = ron::ser::to_string_pretty(&datetime, pretty_config.clone()); assert_eq!(Ok("YM(2018, 5)".to_owned()), res); let datetime = DateTime::new_y(2018).unwrap(); let res = ron::ser::to_string_pretty(&datetime, pretty_config); assert_eq!(Ok("Y(2018)".to_owned()), res); } #[test] fn test_deserialize() { crate::init().unwrap(); let datetime_ron = "YMDhmsTz(2018, 5, 28, 16, 6, 42.123456, 2)"; let datetime_de: DateTime = ron::de::from_str(datetime_ron).unwrap(); assert_eq!( datetime_de, DateTime::new(2f32, 2018, 5, 28, 16, 6, 42.123_456f64).unwrap() ); 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(); assert_eq!( datetime_de, DateTime::new(2f32, 2018, 5, 28, 16, 6, 42.123_456f64).unwrap() ); let datetime_ron = "YMDhmTz(2018, 5, 28, 16, 6, 2)"; let datetime_de: DateTime = ron::de::from_str(datetime_ron).unwrap(); assert_eq!( datetime_de, DateTime::new(2f32, 2018, 5, 28, 16, 6, None).unwrap() ); let datetime_ron = "YMD(2018, 5, 28)"; let datetime_de: DateTime = ron::de::from_str(datetime_ron).unwrap(); assert_eq!(datetime_de, DateTime::new_ymd(2018, 5, 28).unwrap()); let datetime_ron = "YM(2018, 5)"; let datetime_de: DateTime = ron::de::from_str(datetime_ron).unwrap(); assert_eq!(datetime_de, DateTime::new_ym(2018, 5).unwrap()); let datetime_ron = "Y(2018)"; let datetime_de: DateTime = ron::de::from_str(datetime_ron).unwrap(); assert_eq!(datetime_de, DateTime::new_y(2018).unwrap()); } #[test] fn test_serde_roundtrip() { crate::init().unwrap(); let datetime = DateTime::new(2f32, 2018, 5, 28, 16, 6, 42.123_456f64).unwrap(); let datetime_ser = ron::ser::to_string(&datetime).unwrap(); let datetime_de: DateTime = ron::de::from_str(datetime_ser.as_str()).unwrap(); assert_eq!(datetime_de, datetime); let datetime = DateTime::new(2f32, 2018, 5, 28, 16, 6, None).unwrap(); let datetime_ser = ron::ser::to_string(&datetime).unwrap(); let datetime_de: DateTime = ron::de::from_str(datetime_ser.as_str()).unwrap(); assert_eq!(datetime_de, datetime); let datetime = DateTime::new_ymd(2018, 5, 28).unwrap(); let datetime_ser = ron::ser::to_string(&datetime).unwrap(); let datetime_de: DateTime = ron::de::from_str(datetime_ser.as_str()).unwrap(); assert_eq!(datetime_de, datetime); let datetime = DateTime::new_ym(2018, 5).unwrap(); let datetime_ser = ron::ser::to_string(&datetime).unwrap(); let datetime_de: DateTime = ron::de::from_str(datetime_ser.as_str()).unwrap(); assert_eq!(datetime_de, datetime); let datetime = DateTime::new_y(2018).unwrap(); let datetime_ser = ron::ser::to_string(&datetime).unwrap(); let datetime_de: DateTime = ron::de::from_str(datetime_ser.as_str()).unwrap(); assert_eq!(datetime_de, datetime); } }