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|
//! HIR (previously known as descriptors) provides a high-level object oriented
//! access to Rust code.
//!
//! The principal difference between HIR and syntax trees is that HIR is bound
//! to a particular crate instance. That is, it has cfg flags and features
//! applied. So, the relation between syntax and HIR is many-to-one.
#![recursion_limit = "512"]
macro_rules! impl_froms {
($e:ident: $($v:ident $(($($sv:ident),*))?),*) => {
$(
impl From<$v> for $e {
fn from(it: $v) -> $e {
$e::$v(it)
}
}
$($(
impl From<$sv> for $e {
fn from(it: $sv) -> $e {
$e::$v($v::$sv(it))
}
}
)*)?
)*
}
}
pub mod debug;
pub mod db;
pub mod source_binder;
mod ty;
mod expr;
pub mod diagnostics;
mod util;
mod from_id;
mod code_model;
pub mod from_source;
#[cfg(test)]
mod test_db;
#[cfg(test)]
mod marks;
pub use crate::{
code_model::{
src::HasSource, Adt, AssocItem, AttrDef, Const, Container, Crate, CrateDependency,
DefWithBody, Docs, Enum, EnumVariant, FieldSource, Function, GenericDef, GenericParam,
HasAttrs, ImplBlock, Import, Local, MacroDef, Module, ModuleDef, ModuleSource, ScopeDef,
Static, Struct, StructField, Trait, Type, TypeAlias, Union, VariantDef,
},
expr::ExprScopes,
from_source::FromSource,
source_binder::{PathResolution, ScopeEntryWithSyntax, SourceAnalyzer},
ty::{
display::HirDisplay,
primitive::{FloatBitness, FloatTy, IntBitness, IntTy, Signedness, Uncertain},
ApplicationTy, CallableDef, Substs, TraitRef, Ty, TypeCtor, TypeWalk,
},
};
pub use hir_def::{
builtin_type::BuiltinType,
docs::Documentation,
path::{Path, PathKind},
type_ref::Mutability,
};
pub use hir_expand::{
either::Either, name::Name, HirFileId, MacroCallId, MacroCallLoc, MacroDefId, MacroFile, Source,
};
|
