// only for documentation purposes pubmod additional_attributes;
use core::iter::FusedIterator;
#[cfg(feature = "phf")] #[doc(hidden)] pubuse phf as _private_phf_reexport_for_macro_if_phf_feature;
/// The `ParseError` enum is a collection of all the possible reasons /// an enum can fail to parse from a string. #[derive(Debug, Clone, Copy, Eq, PartialEq, Hash)] pubenum ParseError {
VariantNotFound,
}
#[cfg(feature = "std")] impl std::fmt::Display for ParseError { fn fmt(&self, f: &mut std::fmt::Formatter) -> Result<(), std::fmt::Error> { // We could use our macro here, but this way we don't take a dependency on the // macros crate. matchself {
ParseError::VariantNotFound => write!(f, "Matching variant not found"),
}
}
}
#[cfg(feature = "std")] impl std::error::Error for ParseError { fn description(&self) -> &str { matchself {
ParseError::VariantNotFound => { "Unable to find a variant of the given enum matching the string given. Matching \
can be extended with the Serialize attribute and is case sensitive."
}
}
}
}
/// This trait designates that an `Enum` can be iterated over. It can /// be auto generated using the [`EnumIter`](derive.EnumIter.html) derive macro. /// /// # Example /// /// ```rust /// # use std::fmt::Debug; /// // You need to bring the type into scope to use it!!! /// use strum::{EnumIter, IntoEnumIterator}; /// /// #[derive(EnumIter, Debug)] /// enum Color { /// Red, /// Green { range: usize }, /// Blue(usize), /// Yellow, /// } /// /// // Iterate over the items in an enum and perform some function on them. /// fn generic_iterator<E, F>(pred: F) /// where /// E: IntoEnumIterator, /// F: Fn(E), /// { /// for e in E::iter() { /// pred(e) /// } /// } /// /// generic_iterator::<Color, _>(|color| println!("{:?}", color)); /// ``` pubtrait IntoEnumIterator: Sized { type Iterator: Iterator<Item = Self>
+ Clone
+ DoubleEndedIterator
+ ExactSizeIterator
+ FusedIterator;
fn iter() -> Self::Iterator;
}
pubtrait VariantIterator: Sized { type Iterator: Iterator<Item = Self>;
/// Associates additional pieces of information with an Enum. This can be /// autoimplemented by deriving `EnumMessage` and annotating your variants with /// `#[strum(message="...")]`. /// /// # Example /// /// ```rust /// # use std::fmt::Debug; /// // You need to bring the type into scope to use it!!! /// use strum::EnumMessage; /// /// #[derive(PartialEq, Eq, Debug, EnumMessage)] /// enum Pet { /// #[strum(message="I have a dog")] /// #[strum(detailed_message="My dog's name is Spots")] /// Dog, /// /// I am documented. /// #[strum(message="I don't have a cat")] /// Cat, /// } /// /// let my_pet = Pet::Dog; /// assert_eq!("I have a dog", my_pet.get_message().unwrap()); /// ``` pubtrait EnumMessage { fn get_message(&self) -> Option<&'static str>; fn get_detailed_message(&self) -> Option<&'static str>;
/// Get the doc comment associated with a variant if it exists. fn get_documentation(&self) -> Option<&'static str>; fn get_serializations(&self) -> &'static [&'static str];
}
/// `EnumProperty` is a trait that makes it possible to store additional information /// with enum variants. This trait is designed to be used with the macro of the same /// name in the `strum_macros` crate. Currently, the only string literals are supported /// in attributes, the other methods will be implemented as additional attribute types /// become stabilized. /// /// # Example /// /// ```rust /// # use std::fmt::Debug; /// // You need to bring the type into scope to use it!!! /// use strum::EnumProperty; /// /// #[derive(PartialEq, Eq, Debug, EnumProperty)] /// enum Class { /// #[strum(props(Teacher="Ms.Frizzle", Room="201"))] /// History, /// #[strum(props(Teacher="Mr.Smith"))] /// #[strum(props(Room="103"))] /// Mathematics, /// #[strum(props(Time="2:30"))] /// Science, /// } /// /// let history = Class::History; /// assert_eq!("Ms.Frizzle", history.get_str("Teacher").unwrap()); /// ``` pubtrait EnumProperty { fn get_str(&self, prop: &str) -> Option<&'static str>; fn get_int(&self, _prop: &str) -> Option<usize> {
Option::None
}
/// A cheap reference-to-reference conversion. Used to convert a value to a /// reference value with `'static` lifetime within generic code. #[deprecated(
since = "0.22.0",
note = "please use `#[derive(IntoStaticStr)]` instead"
)] pubtrait AsStaticRef<T> where
T: ?Sized,
{ fn as_static(&self) -> &'static T;
}
/// A trait for capturing the number of variants in Enum. This trait can be autoderived by /// `strum_macros`. pubtrait EnumCount { const COUNT: usize;
}
/// A trait for retrieving the names of each variant in Enum. This trait can /// be autoderived by `strum_macros`. pubtrait VariantNames { /// Names of the variants of this enum const VARIANTS: &'static [&'static str];
}
/// A trait for retrieving a static array containing all the variants in an Enum. /// This trait can be autoderived by `strum_macros`. For derived usage, all the /// variants in the enumerator need to be unit-types, which means you can't autoderive /// enums with inner data in one or more variants. Consider using it alongside /// [`EnumDiscriminants`] if you require inner data but still want to have an /// static array of variants. pubtrait VariantArray: ::core::marker::Sized + 'static { const VARIANTS: &'static [Self];
}
// We actually only re-export these items individually if we're building // for docsrs. You can do a weird thing where you rename the macro // and then reference it through strum. The renaming feature should be deprecated now that // 2018 edition is almost 2 years old, but we'll need to give people some time to do that.
DocumentMacroRexports! {
AsRefStr,
Display,
EnumCount,
EnumDiscriminants,
EnumIter,
EnumMessage,
EnumProperty,
EnumString,
VariantNames,
FromRepr,
IntoStaticStr,
VariantArray
}
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