vendor/serde-1.0.145/src/macros.rs - toolchain/rustc - Git at Google

 // Super explicit first paragraph because this shows up at the top level and
 // trips up people who are just looking for basic Serialize / Deserialize
 // documentation.
 //
 /// Helper macro when implementing the `Deserializer` part of a new data format
 /// for Serde.
 ///
 /// Some [`Deserializer`] implementations for self-describing formats do not
 /// care what hint the [`Visitor`] gives them, they just want to blindly call
 /// the [`Visitor`] method corresponding to the data they can tell is in the
 /// input. This requires repetitive implementations of all the [`Deserializer`]
 /// trait methods.
 ///
 /// ```edition2018
 /// # use serde::forward_to_deserialize_any;
 /// # use serde::de::{value, Deserializer, Visitor};
 /// #
 /// # struct MyDeserializer;
 /// #
 /// # impl<'de> Deserializer<'de> for MyDeserializer {
 /// #     type Error = value::Error;
 /// #
 /// #     fn deserialize_any<V>(self, _: V) -> Result<V::Value, Self::Error>
 /// #     where
 /// #         V: Visitor<'de>,
 /// #     {
 /// #         unimplemented!()
 /// #     }
 /// #
 /// #[inline]
 /// fn deserialize_bool<V>(self, visitor: V) -> Result<V::Value, Self::Error>
 /// where
 ///     V: Visitor<'de>,
 /// {
 ///     self.deserialize_any(visitor)
 /// }
 /// #
 /// #     forward_to_deserialize_any! {
 /// #         i8 i16 i32 i64 i128 u8 u16 u32 u64 u128 f32 f64 char str string
 /// #         bytes byte_buf option unit unit_struct newtype_struct seq tuple
 /// #         tuple_struct map struct enum identifier ignored_any
 /// #     }
 /// # }
 /// ```
 ///
 /// The `forward_to_deserialize_any!` macro implements these simple forwarding
 /// methods so that they forward directly to [`Deserializer::deserialize_any`].
 /// You can choose which methods to forward.
 ///
 /// ```edition2018
 /// # use serde::forward_to_deserialize_any;
 /// # use serde::de::{value, Deserializer, Visitor};
 /// #
 /// # struct MyDeserializer;
 /// #
 /// impl<'de> Deserializer<'de> for MyDeserializer {
 /// #   type Error = value::Error;
 /// #
 ///     fn deserialize_any<V>(self, visitor: V) -> Result<V::Value, Self::Error>
 ///     where
 ///         V: Visitor<'de>,
 ///     {
 ///         /* ... */
 /// #       let _ = visitor;
 /// #       unimplemented!()
 ///     }
 ///
 ///     forward_to_deserialize_any! {
 ///         bool i8 i16 i32 i64 i128 u8 u16 u32 u64 u128 f32 f64 char str string
 ///         bytes byte_buf option unit unit_struct newtype_struct seq tuple
 ///         tuple_struct map struct enum identifier ignored_any
 ///     }
 /// }
 /// ```
 ///
 /// The macro assumes the convention that your `Deserializer` lifetime parameter
 /// is called `'de` and that the `Visitor` type parameters on each method are
 /// called `V`. A different type parameter and a different lifetime can be
 /// specified explicitly if necessary.
 ///
 /// ```edition2018
 /// # use std::marker::PhantomData;
 /// #
 /// # use serde::forward_to_deserialize_any;
 /// # use serde::de::{value, Deserializer, Visitor};
 /// #
 /// # struct MyDeserializer<V>(PhantomData<V>);
 /// #
 /// # impl<'q, V> Deserializer<'q> for MyDeserializer<V> {
 /// #     type Error = value::Error;
 /// #
 /// #     fn deserialize_any<W>(self, visitor: W) -> Result<W::Value, Self::Error>
 /// #     where
 /// #         W: Visitor<'q>,
 /// #     {
 /// #         unimplemented!()
 /// #     }
 /// #
 /// forward_to_deserialize_any! {
 ///     <W: Visitor<'q>>
 ///     bool i8 i16 i32 i64 i128 u8 u16 u32 u64 u128 f32 f64 char str string
 ///     bytes byte_buf option unit unit_struct newtype_struct seq tuple
 ///     tuple_struct map struct enum identifier ignored_any
 /// }
 /// # }
 /// ```
 ///
 /// [`Deserializer`]: trait.Deserializer.html
 /// [`Visitor`]: de/trait.Visitor.html
 /// [`Deserializer::deserialize_any`]: trait.Deserializer.html#tymethod.deserialize_any
 #[macro_export(local_inner_macros)]
 macro_rules! forward_to_deserialize_any {
     (<$visitor:ident: Visitor<$lifetime:tt>> $($func:ident)*) => {
         $(forward_to_deserialize_any_helper!{$func<$lifetime, $visitor>})*
     };
     // This case must be after the previous one.
     ($($func:ident)*) => {
         $(forward_to_deserialize_any_helper!{$func<'de, V>})*
     };
 }

 #[doc(hidden)]
 #[macro_export]
 macro_rules! forward_to_deserialize_any_method {
     ($func:ident<$l:tt, $v:ident>($($arg:ident : $ty:ty),*)) => {
         #[inline]
         fn $func<$v>(self, $($arg: $ty,)* visitor: $v) -> $crate::__private::Result<$v::Value, Self::Error>
         where
             $v: $crate::de::Visitor<$l>,
         {
             $(
                 let _ = $arg;
             )*
             self.deserialize_any(visitor)
         }
     };
 }

 #[doc(hidden)]
 #[macro_export(local_inner_macros)]
 macro_rules! forward_to_deserialize_any_helper {
     (bool<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_bool<$l, $v>()}
     };
     (i8<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_i8<$l, $v>()}
     };
     (i16<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_i16<$l, $v>()}
     };
     (i32<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_i32<$l, $v>()}
     };
     (i64<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_i64<$l, $v>()}
     };
     (i128<$l:tt, $v:ident>) => {
         serde_if_integer128! {
             forward_to_deserialize_any_method!{deserialize_i128<$l, $v>()}
         }
     };
     (u8<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_u8<$l, $v>()}
     };
     (u16<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_u16<$l, $v>()}
     };
     (u32<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_u32<$l, $v>()}
     };
     (u64<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_u64<$l, $v>()}
     };
     (u128<$l:tt, $v:ident>) => {
         serde_if_integer128! {
             forward_to_deserialize_any_method!{deserialize_u128<$l, $v>()}
         }
     };
     (f32<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_f32<$l, $v>()}
     };
     (f64<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_f64<$l, $v>()}
     };
     (char<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_char<$l, $v>()}
     };
     (str<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_str<$l, $v>()}
     };
     (string<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_string<$l, $v>()}
     };
     (bytes<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_bytes<$l, $v>()}
     };
     (byte_buf<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_byte_buf<$l, $v>()}
     };
     (option<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_option<$l, $v>()}
     };
     (unit<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_unit<$l, $v>()}
     };
     (unit_struct<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_unit_struct<$l, $v>(name: &'static str)}
     };
     (newtype_struct<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_newtype_struct<$l, $v>(name: &'static str)}
     };
     (seq<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_seq<$l, $v>()}
     };
     (tuple<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_tuple<$l, $v>(len: usize)}
     };
     (tuple_struct<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_tuple_struct<$l, $v>(name: &'static str, len: usize)}
     };
     (map<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_map<$l, $v>()}
     };
     (struct<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_struct<$l, $v>(name: &'static str, fields: &'static [&'static str])}
     };
     (enum<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_enum<$l, $v>(name: &'static str, variants: &'static [&'static str])}
     };
     (identifier<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_identifier<$l, $v>()}
     };
     (ignored_any<$l:tt, $v:ident>) => {
         forward_to_deserialize_any_method!{deserialize_ignored_any<$l, $v>()}
     };
 }
	// Super explicit first paragraph because this shows up at the top level and
	// trips up people who are just looking for basic Serialize / Deserialize
	// documentation.
	//
	/// Helper macro when implementing the `Deserializer` part of a new data format
	/// for Serde.
	///
	/// Some [`Deserializer`] implementations for self-describing formats do not
	/// care what hint the [`Visitor`] gives them, they just want to blindly call
	/// the [`Visitor`] method corresponding to the data they can tell is in the
	/// input. This requires repetitive implementations of all the [`Deserializer`]
	/// trait methods.
	///
	/// ```edition2018
	/// # use serde::forward_to_deserialize_any;
	/// # use serde::de::{value, Deserializer, Visitor};
	/// #
	/// # struct MyDeserializer;
	/// #
	/// # impl<'de> Deserializer<'de> for MyDeserializer {
	/// # type Error = value::Error;
	/// #
	/// # fn deserialize_any<V>(self, _: V) -> Result<V::Value, Self::Error>
	/// # where
	/// # V: Visitor<'de>,
	/// # {
	/// # unimplemented!()
	/// # }
	/// #
	/// #[inline]
	/// fn deserialize_bool<V>(self, visitor: V) -> Result<V::Value, Self::Error>
	/// where
	/// V: Visitor<'de>,
	/// {
	/// self.deserialize_any(visitor)
	/// }
	/// #
	/// # forward_to_deserialize_any! {
	/// # i8 i16 i32 i64 i128 u8 u16 u32 u64 u128 f32 f64 char str string
	/// # bytes byte_buf option unit unit_struct newtype_struct seq tuple
	/// # tuple_struct map struct enum identifier ignored_any
	/// # }
	/// # }
	/// ```
	///
	/// The `forward_to_deserialize_any!` macro implements these simple forwarding
	/// methods so that they forward directly to [`Deserializer::deserialize_any`].
	/// You can choose which methods to forward.
	///
	/// ```edition2018
	/// # use serde::forward_to_deserialize_any;
	/// # use serde::de::{value, Deserializer, Visitor};
	/// #
	/// # struct MyDeserializer;
	/// #
	/// impl<'de> Deserializer<'de> for MyDeserializer {
	/// # type Error = value::Error;
	/// #
	/// fn deserialize_any<V>(self, visitor: V) -> Result<V::Value, Self::Error>
	/// where
	/// V: Visitor<'de>,
	/// {
	/// /* ... */
	/// # let _ = visitor;
	/// # unimplemented!()
	/// }
	///
	/// forward_to_deserialize_any! {
	/// bool i8 i16 i32 i64 i128 u8 u16 u32 u64 u128 f32 f64 char str string
	/// bytes byte_buf option unit unit_struct newtype_struct seq tuple
	/// tuple_struct map struct enum identifier ignored_any
	/// }
	/// }
	/// ```
	///
	/// The macro assumes the convention that your `Deserializer` lifetime parameter
	/// is called `'de` and that the `Visitor` type parameters on each method are
	/// called `V`. A different type parameter and a different lifetime can be
	/// specified explicitly if necessary.
	///
	/// ```edition2018
	/// # use std::marker::PhantomData;
	/// #
	/// # use serde::forward_to_deserialize_any;
	/// # use serde::de::{value, Deserializer, Visitor};
	/// #
	/// # struct MyDeserializer<V>(PhantomData<V>);
	/// #
	/// # impl<'q, V> Deserializer<'q> for MyDeserializer<V> {
	/// # type Error = value::Error;
	/// #
	/// # fn deserialize_any<W>(self, visitor: W) -> Result<W::Value, Self::Error>
	/// # where
	/// # W: Visitor<'q>,
	/// # {
	/// # unimplemented!()
	/// # }
	/// #
	/// forward_to_deserialize_any! {
	/// <W: Visitor<'q>>
	/// bool i8 i16 i32 i64 i128 u8 u16 u32 u64 u128 f32 f64 char str string
	/// bytes byte_buf option unit unit_struct newtype_struct seq tuple
	/// tuple_struct map struct enum identifier ignored_any
	/// }
	/// # }
	/// ```
	///
	/// [`Deserializer`]: trait.Deserializer.html
	/// [`Visitor`]: de/trait.Visitor.html
	/// [`Deserializer::deserialize_any`]: trait.Deserializer.html#tymethod.deserialize_any
	#[macro_export(local_inner_macros)]
	macro_rules! forward_to_deserialize_any {
	(<$visitor:ident: Visitor<$lifetime:tt>> $($func:ident)*) => {
	$(forward_to_deserialize_any_helper!{$func<$lifetime, $visitor>})*
	};
	// This case must be after the previous one.
	($($func:ident)*) => {
	$(forward_to_deserialize_any_helper!{$func<'de, V>})*
	};
	}

	#[doc(hidden)]
	#[macro_export]
	macro_rules! forward_to_deserialize_any_method {
	($func:ident<$l:tt, $v:ident>($($arg:ident : $ty:ty),*)) => {
	#[inline]
	fn $func<$v>(self, $($arg: $ty,)* visitor: $v) -> $crate::__private::Result<$v::Value, Self::Error>
	where
	$v: $crate::de::Visitor<$l>,
	{
	$(
	let _ = $arg;
	)*
	self.deserialize_any(visitor)
	}
	};
	}

	#[doc(hidden)]
	#[macro_export(local_inner_macros)]
	macro_rules! forward_to_deserialize_any_helper {
	(bool<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_bool<$l, $v>()}
	};
	(i8<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_i8<$l, $v>()}
	};
	(i16<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_i16<$l, $v>()}
	};
	(i32<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_i32<$l, $v>()}
	};
	(i64<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_i64<$l, $v>()}
	};
	(i128<$l:tt, $v:ident>) => {
	serde_if_integer128! {
	forward_to_deserialize_any_method!{deserialize_i128<$l, $v>()}
	}
	};
	(u8<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_u8<$l, $v>()}
	};
	(u16<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_u16<$l, $v>()}
	};
	(u32<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_u32<$l, $v>()}
	};
	(u64<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_u64<$l, $v>()}
	};
	(u128<$l:tt, $v:ident>) => {
	serde_if_integer128! {
	forward_to_deserialize_any_method!{deserialize_u128<$l, $v>()}
	}
	};
	(f32<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_f32<$l, $v>()}
	};
	(f64<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_f64<$l, $v>()}
	};
	(char<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_char<$l, $v>()}
	};
	(str<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_str<$l, $v>()}
	};
	(string<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_string<$l, $v>()}
	};
	(bytes<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_bytes<$l, $v>()}
	};
	(byte_buf<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_byte_buf<$l, $v>()}
	};
	(option<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_option<$l, $v>()}
	};
	(unit<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_unit<$l, $v>()}
	};
	(unit_struct<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_unit_struct<$l, $v>(name: &'static str)}
	};
	(newtype_struct<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_newtype_struct<$l, $v>(name: &'static str)}
	};
	(seq<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_seq<$l, $v>()}
	};
	(tuple<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_tuple<$l, $v>(len: usize)}
	};
	(tuple_struct<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_tuple_struct<$l, $v>(name: &'static str, len: usize)}
	};
	(map<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_map<$l, $v>()}
	};
	(struct<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_struct<$l, $v>(name: &'static str, fields: &'static [&'static str])}
	};
	(enum<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_enum<$l, $v>(name: &'static str, variants: &'static [&'static str])}
	};
	(identifier<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_identifier<$l, $v>()}
	};
	(ignored_any<$l:tt, $v:ident>) => {
	forward_to_deserialize_any_method!{deserialize_ignored_any<$l, $v>()}
	};
	}