rust/crates/ra_hir_expand/src/lib.rs

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//! `ra_hir_expand` deals with macro expansion.
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//!
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//! Specifically, it implements a concept of `MacroFile` -- a file whose syntax
//! tree originates not from the text of some `FileId`, but from some macro
//! expansion.
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pub mod db;
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pub mod ast_id_map;
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pub mod name;
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pub mod hygiene;
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pub mod diagnostics;
pub mod builtin_derive;
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pub mod builtin_macro;
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pub mod quote;
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use std::hash::Hash;
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use std::sync::Arc;
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use ra_db::{salsa, CrateId, FileId};
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use ra_syntax::{
algo,
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ast::{self, AstNode},
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SyntaxNode, SyntaxToken, TextUnit,
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};
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use crate::ast_id_map::FileAstId;
use crate::builtin_derive::BuiltinDeriveExpander;
use crate::builtin_macro::BuiltinFnLikeExpander;
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#[cfg(test)]
mod test_db;
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/// Input to the analyzer is a set of files, where each file is identified by
/// `FileId` and contains source code. However, another source of source code in
/// Rust are macros: each macro can be thought of as producing a "temporary
/// file". To assign an id to such a file, we use the id of the macro call that
/// produced the file. So, a `HirFileId` is either a `FileId` (source code
/// written by user), or a `MacroCallId` (source code produced by macro).
///
/// What is a `MacroCallId`? Simplifying, it's a `HirFileId` of a file
/// containing the call plus the offset of the macro call in the file. Note that
/// this is a recursive definition! However, the size_of of `HirFileId` is
/// finite (because everything bottoms out at the real `FileId`) and small
/// (`MacroCallId` uses the location interner).
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
pub struct HirFileId(HirFileIdRepr);
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
enum HirFileIdRepr {
FileId(FileId),
MacroFile(MacroFile),
}
impl From<FileId> for HirFileId {
fn from(id: FileId) -> Self {
HirFileId(HirFileIdRepr::FileId(id))
}
}
impl From<MacroFile> for HirFileId {
fn from(id: MacroFile) -> Self {
HirFileId(HirFileIdRepr::MacroFile(id))
}
}
impl HirFileId {
/// For macro-expansion files, returns the file original source file the
/// expansion originated from.
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pub fn original_file(self, db: &dyn db::AstDatabase) -> FileId {
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match self.0 {
HirFileIdRepr::FileId(file_id) => file_id,
HirFileIdRepr::MacroFile(macro_file) => {
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let lazy_id = match macro_file.macro_call_id {
MacroCallId::LazyMacro(id) => id,
};
let loc = db.lookup_intern_macro(lazy_id);
loc.kind.file_id().original_file(db)
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}
}
}
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/// If this is a macro call, returns the syntax node of the call.
pub fn call_node(self, db: &dyn db::AstDatabase) -> Option<InFile<SyntaxNode>> {
match self.0 {
HirFileIdRepr::FileId(_) => None,
HirFileIdRepr::MacroFile(macro_file) => {
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let lazy_id = match macro_file.macro_call_id {
MacroCallId::LazyMacro(id) => id,
};
let loc = db.lookup_intern_macro(lazy_id);
Some(loc.kind.node(db))
}
}
}
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/// Return expansion information if it is a macro-expansion file
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pub fn expansion_info(self, db: &dyn db::AstDatabase) -> Option<ExpansionInfo> {
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match self.0 {
HirFileIdRepr::FileId(_) => None,
HirFileIdRepr::MacroFile(macro_file) => {
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let lazy_id = match macro_file.macro_call_id {
MacroCallId::LazyMacro(id) => id,
};
let loc: MacroCallLoc = db.lookup_intern_macro(lazy_id);
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let arg_tt = loc.kind.arg(db)?;
let def_tt = loc.def.ast_id?.to_node(db).token_tree()?;
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let macro_def = db.macro_def(loc.def)?;
let (parse, exp_map) = db.parse_macro(macro_file)?;
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let macro_arg = db.macro_arg(macro_file.macro_call_id)?;
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Some(ExpansionInfo {
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expanded: InFile::new(self, parse.syntax_node()),
arg: InFile::new(loc.kind.file_id(), arg_tt),
def: InFile::new(loc.def.ast_id?.file_id, def_tt),
macro_arg,
macro_def,
exp_map,
})
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}
}
}
/// Indicate it is macro file generated for builtin derive
pub fn is_builtin_derive(&self, db: &dyn db::AstDatabase) -> Option<InFile<ast::ModuleItem>> {
match self.0 {
HirFileIdRepr::FileId(_) => None,
HirFileIdRepr::MacroFile(macro_file) => {
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let lazy_id = match macro_file.macro_call_id {
MacroCallId::LazyMacro(id) => id,
};
let loc: MacroCallLoc = db.lookup_intern_macro(lazy_id);
let item = match loc.def.kind {
MacroDefKind::BuiltInDerive(_) => loc.kind.node(db),
_ => return None,
};
Some(item.with_value(ast::ModuleItem::cast(item.value.clone())?))
}
}
}
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}
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
pub struct MacroFile {
macro_call_id: MacroCallId,
}
/// `MacroCallId` identifies a particular macro invocation, like
/// `println!("Hello, {}", world)`.
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
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pub enum MacroCallId {
LazyMacro(LazyMacroId),
}
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
pub struct LazyMacroId(salsa::InternId);
impl salsa::InternKey for LazyMacroId {
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fn from_intern_id(v: salsa::InternId) -> Self {
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LazyMacroId(v)
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}
fn as_intern_id(&self) -> salsa::InternId {
self.0
}
}
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impl From<LazyMacroId> for MacroCallId {
fn from(it: LazyMacroId) -> Self {
MacroCallId::LazyMacro(it)
}
}
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#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
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pub struct MacroDefId {
// FIXME: krate and ast_id are currently optional because we don't have a
// definition location for built-in derives. There is one, though: the
// standard library defines them. The problem is that it uses the new
// `macro` syntax for this, which we don't support yet. As soon as we do
// (which will probably require touching this code), we can instead use
// that (and also remove the hacks for resolving built-in derives).
pub krate: Option<CrateId>,
pub ast_id: Option<AstId<ast::MacroCall>>,
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pub kind: MacroDefKind,
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}
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impl MacroDefId {
pub fn as_call_id(self, db: &dyn db::AstDatabase, kind: MacroCallKind) -> MacroCallId {
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db.intern_macro(MacroCallLoc { def: self, kind }).into()
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}
}
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#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
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pub enum MacroDefKind {
Declarative,
BuiltIn(BuiltinFnLikeExpander),
// FIXME: maybe just Builtin and rename BuiltinFnLikeExpander to BuiltinExpander
BuiltInDerive(BuiltinDeriveExpander),
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}
#[derive(Debug, Clone, PartialEq, Eq, Hash)]
pub struct MacroCallLoc {
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pub(crate) def: MacroDefId,
pub(crate) kind: MacroCallKind,
}
#[derive(Debug, Clone, PartialEq, Eq, Hash)]
pub enum MacroCallKind {
FnLike(AstId<ast::MacroCall>),
Attr(AstId<ast::ModuleItem>),
}
impl MacroCallKind {
pub fn file_id(&self) -> HirFileId {
match self {
MacroCallKind::FnLike(ast_id) => ast_id.file_id,
MacroCallKind::Attr(ast_id) => ast_id.file_id,
}
}
pub fn node(&self, db: &dyn db::AstDatabase) -> InFile<SyntaxNode> {
match self {
MacroCallKind::FnLike(ast_id) => ast_id.with_value(ast_id.to_node(db).syntax().clone()),
MacroCallKind::Attr(ast_id) => ast_id.with_value(ast_id.to_node(db).syntax().clone()),
}
}
pub fn arg(&self, db: &dyn db::AstDatabase) -> Option<SyntaxNode> {
match self {
MacroCallKind::FnLike(ast_id) => {
Some(ast_id.to_node(db).token_tree()?.syntax().clone())
}
MacroCallKind::Attr(ast_id) => Some(ast_id.to_node(db).syntax().clone()),
}
}
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}
impl MacroCallId {
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pub fn as_file(self) -> HirFileId {
MacroFile { macro_call_id: self }.into()
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}
}
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/// ExpansionInfo mainly describes how to map text range between src and expanded macro
#[derive(Debug, Clone, PartialEq, Eq)]
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pub struct ExpansionInfo {
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expanded: InFile<SyntaxNode>,
arg: InFile<SyntaxNode>,
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def: InFile<ast::TokenTree>,
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macro_def: Arc<(db::TokenExpander, mbe::TokenMap)>,
macro_arg: Arc<(tt::Subtree, mbe::TokenMap)>,
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exp_map: Arc<mbe::TokenMap>,
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}
pub use mbe::Origin;
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impl ExpansionInfo {
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pub fn call_node(&self) -> Option<InFile<SyntaxNode>> {
Some(self.arg.with_value(self.arg.value.parent()?))
}
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pub fn map_token_down(&self, token: InFile<&SyntaxToken>) -> Option<InFile<SyntaxToken>> {
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assert_eq!(token.file_id, self.arg.file_id);
let range = token.value.text_range().checked_sub(self.arg.value.text_range().start())?;
let token_id = self.macro_arg.1.token_by_range(range)?;
let token_id = self.macro_def.0.map_id_down(token_id);
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let range = self.exp_map.range_by_token(token_id)?.by_kind(token.value.kind())?;
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let token = algo::find_covering_element(&self.expanded.value, range).into_token()?;
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Some(self.expanded.with_value(token))
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}
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pub fn map_token_up(
&self,
token: InFile<&SyntaxToken>,
) -> Option<(InFile<SyntaxToken>, Origin)> {
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let token_id = self.exp_map.token_by_range(token.value.text_range())?;
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let (token_id, origin) = self.macro_def.0.map_id_up(token_id);
let (token_map, tt) = match origin {
mbe::Origin::Call => (&self.macro_arg.1, self.arg.clone()),
mbe::Origin::Def => {
(&self.macro_def.1, self.def.as_ref().map(|tt| tt.syntax().clone()))
}
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};
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let range = token_map.range_by_token(token_id)?.by_kind(token.value.kind())?;
let token = algo::find_covering_element(&tt.value, range + tt.value.text_range().start())
.into_token()?;
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Some((tt.with_value(token), origin))
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}
}
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/// `AstId` points to an AST node in any file.
///
/// It is stable across reparses, and can be used as salsa key/value.
// FIXME: isn't this just a `Source<FileAstId<N>>` ?
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pub type AstId<N> = InFile<FileAstId<N>>;
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impl<N: AstNode> AstId<N> {
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pub fn to_node(&self, db: &dyn db::AstDatabase) -> N {
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let root = db.parse_or_expand(self.file_id).unwrap();
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db.ast_id_map(self.file_id).get(self.value).to_node(&root)
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}
}
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/// `InFile<T>` stores a value of `T` inside a particular file/syntax tree.
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///
/// Typical usages are:
///
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/// * `InFile<SyntaxNode>` -- syntax node in a file
/// * `InFile<ast::FnDef>` -- ast node in a file
/// * `InFile<TextUnit>` -- offset in a file
#[derive(Debug, PartialEq, Eq, Clone, Copy, Hash)]
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pub struct InFile<T> {
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pub file_id: HirFileId,
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pub value: T,
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}
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impl<T> InFile<T> {
pub fn new(file_id: HirFileId, value: T) -> InFile<T> {
InFile { file_id, value }
}
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// Similarly, naming here is stupid...
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pub fn with_value<U>(&self, value: U) -> InFile<U> {
InFile::new(self.file_id, value)
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}
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pub fn map<F: FnOnce(T) -> U, U>(self, f: F) -> InFile<U> {
InFile::new(self.file_id, f(self.value))
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}
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pub fn as_ref(&self) -> InFile<&T> {
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self.with_value(&self.value)
}
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pub fn file_syntax(&self, db: &impl db::AstDatabase) -> SyntaxNode {
db.parse_or_expand(self.file_id).expect("source created from invalid file")
}
}
impl<T: Clone> InFile<&T> {
pub fn cloned(&self) -> InFile<T> {
self.with_value(self.value.clone())
}
}
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impl<T> InFile<Option<T>> {
pub fn transpose(self) -> Option<InFile<T>> {
let value = self.value?;
Some(InFile::new(self.file_id, value))
}
}
impl InFile<SyntaxNode> {
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pub fn ancestors_with_macros(
self,
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db: &impl crate::db::AstDatabase,
) -> impl Iterator<Item = InFile<SyntaxNode>> + '_ {
std::iter::successors(Some(self), move |node| match node.value.parent() {
Some(parent) => Some(node.with_value(parent)),
None => {
let parent_node = node.file_id.call_node(db)?;
Some(parent_node)
}
})
}
}
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impl InFile<SyntaxToken> {
pub fn ancestors_with_macros(
self,
db: &impl crate::db::AstDatabase,
) -> impl Iterator<Item = InFile<SyntaxNode>> + '_ {
self.map(|it| it.parent()).ancestors_with_macros(db)
}
}
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impl<N: AstNode> InFile<N> {
pub fn descendants<T: AstNode>(self) -> impl Iterator<Item = InFile<T>> {
self.value.syntax().descendants().filter_map(T::cast).map(move |n| self.with_value(n))
}
pub fn syntax(&self) -> InFile<&SyntaxNode> {
self.with_value(self.value.syntax())
}
}