mirror of
https://github.com/rust-lang/rust.git
synced 2024-11-23 15:23:46 +00:00
fix: Simplify macro statement expansion handling
This commit is contained in:
parent
f8c416e1b9
commit
531e152390
@ -19,7 +19,6 @@ use la_arena::{Arena, ArenaMap};
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use limit::Limit;
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use profile::Count;
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use rustc_hash::FxHashMap;
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use smallvec::SmallVec;
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use syntax::{ast, AstNode, AstPtr, SyntaxNodePtr};
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use crate::{
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@ -294,10 +293,6 @@ pub struct BodySourceMap {
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field_map: FxHashMap<InFile<AstPtr<ast::RecordExprField>>, ExprId>,
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field_map_back: FxHashMap<ExprId, InFile<AstPtr<ast::RecordExprField>>>,
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/// Maps a macro call to its lowered expressions, a single one if it expands to an expression,
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/// or multiple if it expands to MacroStmts.
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macro_call_to_exprs: FxHashMap<InFile<AstPtr<ast::MacroCall>>, SmallVec<[ExprId; 1]>>,
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expansions: FxHashMap<InFile<AstPtr<ast::MacroCall>>, HirFileId>,
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/// Diagnostics accumulated during body lowering. These contain `AstPtr`s and so are stored in
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@ -466,9 +461,9 @@ impl BodySourceMap {
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self.field_map.get(&src).cloned()
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}
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pub fn macro_expansion_expr(&self, node: InFile<&ast::MacroCall>) -> Option<&[ExprId]> {
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let src = node.map(AstPtr::new);
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self.macro_call_to_exprs.get(&src).map(|it| &**it)
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pub fn macro_expansion_expr(&self, node: InFile<&ast::MacroExpr>) -> Option<ExprId> {
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let src = node.map(AstPtr::new).map(AstPtr::upcast::<ast::MacroExpr>).map(AstPtr::upcast);
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self.expr_map.get(&src).copied()
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}
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/// Get a reference to the body source map's diagnostics.
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@ -13,7 +13,6 @@ use hir_expand::{
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use la_arena::Arena;
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use profile::Count;
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use rustc_hash::FxHashMap;
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use smallvec::smallvec;
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use syntax::{
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ast::{
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self, ArrayExprKind, AstChildren, HasArgList, HasLoopBody, HasName, LiteralKind,
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@ -97,7 +96,6 @@ pub(super) fn lower(
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or_pats: Default::default(),
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},
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expander,
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statements_in_scope: Vec::new(),
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name_to_pat_grouping: Default::default(),
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is_lowering_inside_or_pat: false,
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}
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@ -109,7 +107,6 @@ struct ExprCollector<'a> {
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expander: Expander,
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body: Body,
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source_map: BodySourceMap,
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statements_in_scope: Vec<Statement>,
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// a poor-mans union-find?
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name_to_pat_grouping: FxHashMap<Name, Vec<PatId>>,
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is_lowering_inside_or_pat: bool,
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@ -514,27 +511,25 @@ impl ExprCollector<'_> {
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ast::Expr::MacroExpr(e) => {
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let e = e.macro_call()?;
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let macro_ptr = AstPtr::new(&e);
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let id = self.collect_macro_call(e, macro_ptr.clone(), true, |this, expansion| {
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let id = self.collect_macro_call(e, macro_ptr, true, |this, expansion| {
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expansion.map(|it| this.collect_expr(it))
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});
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match id {
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Some(id) => {
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self.source_map
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.macro_call_to_exprs
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.insert(self.expander.to_source(macro_ptr), smallvec![id]);
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// Make the macro-call point to its expanded expression so we can query
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// semantics on syntax pointers to the macro
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let src = self.expander.to_source(syntax_ptr);
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self.source_map.expr_map.insert(src, id);
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id
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}
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None => self.alloc_expr(Expr::Missing, syntax_ptr.clone()),
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None => self.alloc_expr(Expr::Missing, syntax_ptr),
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}
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}
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ast::Expr::MacroStmts(e) => {
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e.statements().for_each(|s| self.collect_stmt(s));
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let tail = e
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.expr()
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.map(|e| self.collect_expr(e))
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.unwrap_or_else(|| self.alloc_expr(Expr::Missing, syntax_ptr.clone()));
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let statements = e.statements().filter_map(|s| self.collect_stmt(s)).collect();
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let tail = e.expr().map(|e| self.collect_expr(e));
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self.alloc_expr(Expr::MacroStmts { tail }, syntax_ptr)
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self.alloc_expr(Expr::MacroStmts { tail, statements }, syntax_ptr)
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}
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ast::Expr::UnderscoreExpr(_) => self.alloc_expr(Expr::Underscore, syntax_ptr),
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})
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@ -607,11 +602,11 @@ impl ExprCollector<'_> {
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}
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}
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fn collect_stmt(&mut self, s: ast::Stmt) {
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fn collect_stmt(&mut self, s: ast::Stmt) -> Option<Statement> {
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match s {
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ast::Stmt::LetStmt(stmt) => {
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if self.check_cfg(&stmt).is_none() {
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return;
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return None;
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}
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let pat = self.collect_pat_opt(stmt.pat());
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let type_ref =
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@ -621,70 +616,62 @@ impl ExprCollector<'_> {
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.let_else()
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.and_then(|let_else| let_else.block_expr())
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.map(|block| self.collect_block(block));
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self.statements_in_scope.push(Statement::Let {
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pat,
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type_ref,
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initializer,
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else_branch,
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});
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Some(Statement::Let { pat, type_ref, initializer, else_branch })
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}
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ast::Stmt::ExprStmt(stmt) => {
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if let Some(expr) = stmt.expr() {
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if self.check_cfg(&expr).is_none() {
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return;
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let expr = stmt.expr();
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if let Some(expr) = &expr {
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if self.check_cfg(expr).is_none() {
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return None;
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}
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}
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let has_semi = stmt.semicolon_token().is_some();
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// Note that macro could be expended to multiple statements
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if let Some(ast::Expr::MacroExpr(e)) = stmt.expr() {
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let m = match e.macro_call() {
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Some(it) => it,
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None => return,
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};
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let macro_ptr = AstPtr::new(&m);
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let syntax_ptr = AstPtr::new(&stmt.expr().unwrap());
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let prev_stmt = self.statements_in_scope.len();
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self.collect_macro_call(m, macro_ptr.clone(), false, |this, expansion| {
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match expansion {
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// Note that macro could be expanded to multiple statements
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if let Some(expr @ ast::Expr::MacroExpr(mac)) = &expr {
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let mac_call = mac.macro_call()?;
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let syntax_ptr = AstPtr::new(expr);
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let macro_ptr = AstPtr::new(&mac_call);
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// let prev_stmt = self.statements_in_scope.len();
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let stmt = self.collect_macro_call(
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mac_call,
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macro_ptr,
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false,
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|this, expansion: Option<ast::MacroStmts>| match expansion {
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Some(expansion) => {
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let statements: ast::MacroStmts = expansion;
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let statements = expansion
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.statements()
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.filter_map(|stmt| this.collect_stmt(stmt))
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.collect();
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let tail = expansion.expr().map(|expr| this.collect_expr(expr));
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statements.statements().for_each(|stmt| this.collect_stmt(stmt));
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if let Some(expr) = statements.expr() {
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let expr = this.collect_expr(expr);
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this.statements_in_scope
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.push(Statement::Expr { expr, has_semi });
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}
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}
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None => {
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let expr = this.alloc_expr(Expr::Missing, syntax_ptr.clone());
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this.statements_in_scope.push(Statement::Expr { expr, has_semi });
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}
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}
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});
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let mac_stmts = this.alloc_expr(
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Expr::MacroStmts { tail, statements },
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AstPtr::new(&ast::Expr::MacroStmts(expansion)),
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);
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let mut macro_exprs = smallvec![];
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for stmt in &self.statements_in_scope[prev_stmt..] {
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match *stmt {
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Statement::Let { initializer, else_branch, .. } => {
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macro_exprs.extend(initializer);
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macro_exprs.extend(else_branch);
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Some(mac_stmts)
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}
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Statement::Expr { expr, .. } => macro_exprs.push(expr),
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}
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}
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if !macro_exprs.is_empty() {
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self.source_map
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.macro_call_to_exprs
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.insert(self.expander.to_source(macro_ptr), macro_exprs);
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None => None,
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},
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);
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let expr = match stmt {
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Some(expr) => {
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// Make the macro-call point to its expanded expression so we can query
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// semantics on syntax pointers to the macro
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let src = self.expander.to_source(syntax_ptr);
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self.source_map.expr_map.insert(src, expr);
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expr
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}
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None => self.alloc_expr(Expr::Missing, syntax_ptr),
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};
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Some(Statement::Expr { expr, has_semi })
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} else {
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let expr = self.collect_expr_opt(stmt.expr());
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self.statements_in_scope.push(Statement::Expr { expr, has_semi });
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let expr = self.collect_expr_opt(expr);
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Some(Statement::Expr { expr, has_semi })
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}
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}
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ast::Stmt::Item(_item) => {}
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ast::Stmt::Item(_item) => None,
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}
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}
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@ -703,22 +690,10 @@ impl ExprCollector<'_> {
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};
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let prev_def_map = mem::replace(&mut self.expander.def_map, def_map);
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let prev_local_module = mem::replace(&mut self.expander.module, module);
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let prev_statements = std::mem::take(&mut self.statements_in_scope);
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block.statements().for_each(|s| self.collect_stmt(s));
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block.tail_expr().and_then(|e| {
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let expr = self.maybe_collect_expr(e)?;
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self.statements_in_scope.push(Statement::Expr { expr, has_semi: false });
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Some(())
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});
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let statements = block.statements().filter_map(|s| self.collect_stmt(s)).collect();
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let tail = block.tail_expr().and_then(|e| self.maybe_collect_expr(e));
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let mut tail = None;
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if let Some(Statement::Expr { expr, has_semi: false }) = self.statements_in_scope.last() {
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tail = Some(*expr);
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self.statements_in_scope.pop();
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}
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let tail = tail;
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let statements = std::mem::replace(&mut self.statements_in_scope, prev_statements).into();
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let syntax_node_ptr = AstPtr::new(&block.into());
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let expr_id = self.alloc_expr(
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Expr::Block { id: block_id, statements, tail, label: None },
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@ -903,10 +878,12 @@ impl ExprCollector<'_> {
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ast::Pat::MacroPat(mac) => match mac.macro_call() {
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Some(call) => {
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let macro_ptr = AstPtr::new(&call);
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let src = self.expander.to_source(Either::Left(AstPtr::new(&pat)));
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let pat =
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self.collect_macro_call(call, macro_ptr, true, |this, expanded_pat| {
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this.collect_pat_opt_(expanded_pat)
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});
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self.source_map.pat_map.insert(src, pat);
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return pat;
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}
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None => Pat::Missing,
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@ -199,7 +199,8 @@ pub enum Expr {
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body: ExprId,
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},
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MacroStmts {
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tail: ExprId,
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statements: Box<[Statement]>,
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tail: Option<ExprId>,
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},
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Array(Array),
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Literal(Literal),
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@ -254,7 +255,7 @@ impl Expr {
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Expr::Let { expr, .. } => {
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f(*expr);
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}
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Expr::Block { statements, tail, .. } => {
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Expr::MacroStmts { tail, statements } | Expr::Block { statements, tail, .. } => {
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for stmt in statements.iter() {
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match stmt {
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Statement::Let { initializer, .. } => {
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@ -344,7 +345,6 @@ impl Expr {
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f(*repeat)
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}
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},
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Expr::MacroStmts { tail } => f(*tail),
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Expr::Literal(_) => {}
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Expr::Underscore => {}
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}
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@ -774,7 +774,9 @@ impl<'a> InferenceContext<'a> {
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None => self.table.new_float_var(),
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},
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},
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Expr::MacroStmts { tail } => self.infer_expr_inner(*tail, expected),
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Expr::MacroStmts { tail, statements } => {
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self.infer_block(tgt_expr, statements, *tail, expected)
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}
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Expr::Underscore => {
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// Underscore expressions may only appear in assignee expressions,
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// which are handled by `infer_assignee_expr()`, so any underscore
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@ -2223,6 +2223,7 @@ impl Local {
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let src = source_map.pat_syntax(self.pat_id).unwrap(); // Hmm...
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let root = src.file_syntax(db.upcast());
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src.map(|ast| match ast {
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// Suspicious unwrap
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Either::Left(it) => Either::Left(it.cast().unwrap().to_node(&root)),
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Either::Right(it) => Either::Right(it.to_node(&root)),
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})
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@ -539,24 +539,26 @@ impl SourceAnalyzer {
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_ => (),
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}
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}
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let macro_expr = match macro_call
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.map(|it| it.syntax().parent().and_then(ast::MacroExpr::cast))
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.transpose()
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{
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Some(it) => it,
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None => return false,
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};
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if let (Some((def, body, sm)), Some(infer)) = (&self.def, &self.infer) {
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if let Some(expr_ids) = sm.macro_expansion_expr(macro_call) {
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if let Some(expanded_expr) = sm.macro_expansion_expr(macro_expr.as_ref()) {
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let mut is_unsafe = false;
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for &expr_id in expr_ids {
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unsafe_expressions(
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db,
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infer,
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*def,
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body,
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expr_id,
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&mut |UnsafeExpr { inside_unsafe_block, .. }| {
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is_unsafe |= !inside_unsafe_block
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},
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expanded_expr,
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&mut |UnsafeExpr { inside_unsafe_block, .. }| is_unsafe |= !inside_unsafe_block,
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);
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if is_unsafe {
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return true;
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}
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}
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return is_unsafe;
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}
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}
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false
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@ -810,3 +810,33 @@ fn main() {
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"#]],
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)
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}
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#[test]
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fn regression_12644() {
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check(
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r#"
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macro_rules! __rust_force_expr {
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($e:expr) => {
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$e
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};
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}
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macro_rules! vec {
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($elem:expr) => {
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__rust_force_expr!($elem)
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};
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}
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struct Struct;
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impl Struct {
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fn foo(self) {}
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}
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fn f() {
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vec![Struct].$0;
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}
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"#,
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expect![[r#"
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me foo() fn(self)
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"#]],
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);
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}
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@ -689,7 +689,7 @@ fn foo() ->$0 u32 {
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never();
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// ^^^^^^^
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never!();
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// FIXME sema doesn't give us types for macrocalls
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// ^^^^^^^^
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Never.never();
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// ^^^^^^^^^^^^^
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@ -4920,3 +4920,34 @@ impl T for () {
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"#]],
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);
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}
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#[test]
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fn hover_ranged_macro_call() {
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check_hover_range(
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r#"
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macro_rules! __rust_force_expr {
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($e:expr) => {
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$e
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};
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}
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macro_rules! vec {
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($elem:expr) => {
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__rust_force_expr!($elem)
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};
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}
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struct Struct;
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impl Struct {
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fn foo(self) {}
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}
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fn f() {
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$0vec![Struct]$0;
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}
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"#,
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expect![[r#"
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```rust
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Struct
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```"#]],
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);
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}
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|
@ -67,6 +67,13 @@ impl<N: AstNode> AstPtr<N> {
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Some(AstPtr { raw: self.raw, _ty: PhantomData })
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}
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pub fn upcast<M: AstNode>(self) -> AstPtr<M>
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where
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N: Into<M>,
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{
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AstPtr { raw: self.raw, _ty: PhantomData }
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}
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/// Like `SyntaxNodePtr::cast` but the trait bounds work out.
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pub fn try_from_raw(raw: SyntaxNodePtr) -> Option<AstPtr<N>> {
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N::can_cast(raw.kind()).then(|| AstPtr { raw, _ty: PhantomData })
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|
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