1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
//! # Darling
//! Darling is a tool for declarative attribute parsing in proc macro implementations.
//!
//!
//! ## Design
//! Darling takes considerable design inspiration from [`serde`](https://serde.rs). A data structure that can be
//! read from any attribute implements `FromMeta` (or has an implementation automatically
//! generated using `derive`). Any crate can provide `FromMeta` implementations, even one not
//! specifically geared towards proc-macro authors.
//!
//! Proc-macro crates should provide their own structs which implement or derive `FromDeriveInput`,
//! `FromField`, `FromVariant`, `FromGenerics`, _et alia_ to gather settings relevant to their operation.
//!
//! ## Attributes
//! There are a number of attributes that `darling` exposes to enable finer-grained control over the code
//! it generates.
//!
//! * **Field renaming**: You can use `#[darling(rename="new_name")]` on a field to change the name Darling looks for.
//!   You can also use `#[darling(rename_all="...")]` at the struct or enum level to apply a casing rule to all fields or variants.
//! * **Map function**: You can use `#[darling(map="path::to::function")]` to run code on a field before its stored in the struct.
//! * **Default values**: You can use `#[darling(default)]` at the type or field level to use that type's default value to fill
//!   in values not specified by the caller.
//! * **Skipped fields**: You can skip a variant or field using `#[darling(skip)]`. Fields marked with this will fall back to
//!   `Default::default()` for their value, but you can override that with an explicit default or a value from the type-level default.
//!
//! ## Forwarded Fields
//! All derivable traits except `FromMeta` support forwarding some fields from the input AST to the derived struct.
//! These fields are matched up by identifier **before** `rename` attribute values are considered,
//! allowing you to use their names for your own properties.
//! The deriving struct is responsible for making sure the types of fields it chooses to declare are compatible with this table.
//!
//! A deriving struct is free to include or exclude any of the fields below.
//!
//! ### `FromDeriveInput`
//! |Field name|Type|Meaning|
//! |---|---|---|
//! |`ident`|`syn::Ident`|The identifier of the passed-in type|
//! |`vis`|`syn::Visibility`|The visibility of the passed-in type|
//! |`generics`|`T: darling::FromGenerics`|The generics of the passed-in type. This can be `syn::Generics`, `darling::ast::Generics`, or any compatible type.|
//! |`data`|`darling::ast::Data`|The body of the passed-in type|
//! |`attrs`|`Vec<syn::Attribute>`|The forwarded attributes from the passed in type. These are controlled using the `forward_attrs` attribute.|
//!
//! ### `FromField`
//! |Field name|Type|Meaning|
//! |---|---|---|
//! |`ident`|`Option<syn::Ident>`|The identifier of the passed-in field, or `None` for tuple fields|
//! |`vis`|`syn::Visibility`|The visibility of the passed-in field|
//! |`ty`|`syn::Type`|The type of the passed-in field|
//! |`attrs`|`Vec<syn::Attribute>`|The forwarded attributes from the passed in field. These are controlled using the `forward_attrs` attribute.|
//!
//! ### `FromTypeParam`
//! |Field name|Type|Meaning|
//! |---|---|---|
//! |`ident`|`syn::Ident`|The identifier of the passed-in type param|
//! |`bounds`|`Vec<syn::TypeParamBound>`|The bounds applied to the type param|
//! |`default`|`Option<syn::Type>`|The default type of the parameter, if one exists|
//! |`attrs`|`Vec<syn::Attribute>`|The forwarded attributes from the passed in type param. These are controlled using the `forward_attrs` attribute.|
//!
//! ### `FromVariant`
//! |Field name|Type|Meaning|
//! |---|---|---|
//! |`ident`|`syn::Ident`|The identifier of the passed-in variant|
//! |`discriminant`|`Option<syn::Expr>`|For a variant such as `Example = 2`, the `2`|
//! |`fields`|`darling::ast::Fields<T> where T: FromField`|The fields associated with the variant|
//! |`attrs`|`Vec<syn::Attribute>`|The forwarded attributes from the passed in variant. These are controlled using the `forward_attrs` attribute.|

extern crate core;

#[allow(unused_imports)]
#[macro_use]
extern crate darling_macro;

#[doc(hidden)]
pub use darling_macro::*;

#[doc(inline)]
pub use darling_core::{
    FromAttributes, FromDeriveInput, FromField, FromGenericParam, FromGenerics, FromMeta,
    FromTypeParam, FromVariant,
};

#[doc(inline)]
pub use darling_core::{Error, Result};

#[doc(inline)]
pub use darling_core::{ast, error, usage, util};

// XXX exported so that `ExtractAttribute::extractor` can convert a path into tokens.
// This is likely to change in the future, so only generated code should depend on this export.
#[doc(hidden)]
pub use darling_core::ToTokens;

/// Core/std trait re-exports. This should help produce generated code which doesn't
/// depend on `std` unnecessarily, and avoids problems caused by aliasing `std` or any
/// of the referenced types.
#[doc(hidden)]
pub mod export {
    pub use core::convert::From;
    pub use core::default::Default;
    pub use core::option::Option::{self, None, Some};
    pub use core::result::Result::{self, Err, Ok};
    pub use darling_core::syn;
    pub use std::string::ToString;
    pub use std::vec::Vec;
}

#[macro_use]
mod macros_public;