Auto merge of #130337 - BoxyUwU:anon_const_macro_call, r=camelid
Fix anon const def-creation when macros are involved take 2 Fixes #130321 There were two cases that #129137 did not handle correctly: - Given a const argument `Foo<{ bar!() }>` in which `bar!()` expands to `N`, we would visit the anon const and then visit the `{ bar() }` expression instead of visiting the macro call. This meant that we would build a def for the anon const as `{ bar!() }` is not a trivial const argument as `bar!()` is not a path. - Given a const argument `Foo<{ bar!() }>` is which `bar!()` expands to `{ qux!() }` in which `qux!()` expands to `N`, it should not be considered a trivial const argument as `{{ N }}` has two pairs of braces. If we only looked at `qux`'s expansion it would *look* like a trivial const argument even though it is not. We have to track whether we have "unwrapped" a brace already when recursing into the expansions of `bar`/`qux`/any macro r? `@camelid`
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commit
55043f067d
@ -1187,8 +1187,8 @@ impl Expr {
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/// `min_const_generics` as more complex expressions are not supported.
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///
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/// Does not ensure that the path resolves to a const param, the caller should check this.
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pub fn is_potential_trivial_const_arg(&self) -> bool {
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let this = self.maybe_unwrap_block();
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pub fn is_potential_trivial_const_arg(&self, strip_identity_block: bool) -> bool {
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let this = if strip_identity_block { self.maybe_unwrap_block().1 } else { self };
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if let ExprKind::Path(None, path) = &this.kind
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&& path.is_potential_trivial_const_arg()
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@ -1199,14 +1199,15 @@ pub fn is_potential_trivial_const_arg(&self) -> bool {
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}
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}
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pub fn maybe_unwrap_block(&self) -> &Expr {
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/// Returns an expression with (when possible) *one* outter brace removed
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pub fn maybe_unwrap_block(&self) -> (bool, &Expr) {
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if let ExprKind::Block(block, None) = &self.kind
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&& let [stmt] = block.stmts.as_slice()
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&& let StmtKind::Expr(expr) = &stmt.kind
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{
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expr
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(true, expr)
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} else {
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self
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(false, self)
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}
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}
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@ -221,7 +221,7 @@ pub(crate) fn lower_inline_asm(
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let parent_def_id = self.current_def_id_parent;
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let node_id = self.next_node_id();
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// HACK(min_generic_const_args): see lower_anon_const
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if !expr.is_potential_trivial_const_arg() {
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if !expr.is_potential_trivial_const_arg(true) {
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self.create_def(
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parent_def_id,
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node_id,
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@ -389,7 +389,7 @@ fn lower_legacy_const_generics(
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let node_id = self.next_node_id();
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// HACK(min_generic_const_args): see lower_anon_const
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if !arg.is_potential_trivial_const_arg() {
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if !arg.is_potential_trivial_const_arg(true) {
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// Add a definition for the in-band const def.
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self.create_def(parent_def_id, node_id, kw::Empty, DefKind::AnonConst, f.span);
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}
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@ -2466,7 +2466,7 @@ fn lower_anon_const_to_const_arg_direct(&mut self, anon: &AnonConst) -> hir::Con
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/// See [`hir::ConstArg`] for when to use this function vs
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/// [`Self::lower_anon_const_to_const_arg`].
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fn lower_anon_const_to_anon_const(&mut self, c: &AnonConst) -> &'hir hir::AnonConst {
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if c.value.is_potential_trivial_const_arg() {
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if c.value.is_potential_trivial_const_arg(true) {
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// HACK(min_generic_const_args): see DefCollector::visit_anon_const
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// Over there, we guess if this is a bare param and only create a def if
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// we think it's not. However we may can guess wrong (see there for example)
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@ -138,6 +138,61 @@ fn visit_macro_invoc(&mut self, id: NodeId) {
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);
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assert!(old_parent.is_none(), "parent `LocalDefId` is reset for an invocation");
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}
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/// Determines whether the const argument `AnonConst` is a simple macro call, optionally
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/// surrounded with braces.
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///
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/// If this const argument *is* a trivial macro call then the id for the macro call is
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/// returned along with the information required to build the anon const's def if
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/// the macro call expands to a non-trivial expression.
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fn is_const_arg_trivial_macro_expansion(
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&self,
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anon_const: &'a AnonConst,
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) -> Option<(PendingAnonConstInfo, NodeId)> {
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let (block_was_stripped, expr) = anon_const.value.maybe_unwrap_block();
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match expr {
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Expr { kind: ExprKind::MacCall(..), id, .. } => Some((
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PendingAnonConstInfo {
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id: anon_const.id,
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span: anon_const.value.span,
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block_was_stripped,
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},
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*id,
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)),
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_ => None,
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}
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}
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/// Determines whether the expression `const_arg_sub_expr` is a simple macro call, sometimes
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/// surrounded with braces if a set of braces has not already been entered. This is required
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/// as `{ N }` is treated as equivalent to a bare parameter `N` whereas `{{ N }}` is treated as
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/// a real block expression and is lowered to an anonymous constant which is not allowed to use
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/// generic parameters.
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///
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/// If this expression is a trivial macro call then the id for the macro call is
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/// returned along with the information required to build the anon const's def if
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/// the macro call expands to a non-trivial expression.
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fn is_const_arg_sub_expr_trivial_macro_expansion(
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&self,
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const_arg_sub_expr: &'a Expr,
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) -> Option<(PendingAnonConstInfo, NodeId)> {
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let pending_anon = self.pending_anon_const_info.unwrap_or_else(||
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panic!("Checking expr is trivial macro call without having entered anon const: `{const_arg_sub_expr:?}`"),
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);
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let (block_was_stripped, expr) = if pending_anon.block_was_stripped {
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(true, const_arg_sub_expr)
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} else {
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const_arg_sub_expr.maybe_unwrap_block()
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};
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match expr {
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Expr { kind: ExprKind::MacCall(..), id, .. } => {
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Some((PendingAnonConstInfo { block_was_stripped, ..pending_anon }, *id))
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}
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_ => None,
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}
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}
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}
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impl<'a, 'ra, 'tcx> visit::Visitor<'a> for DefCollector<'a, 'ra, 'tcx> {
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@ -354,12 +409,12 @@ fn visit_anon_const(&mut self, constant: &'a AnonConst) {
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// items will be messed up, but that's ok because there can't be any if we're just looking
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// for bare idents.
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if matches!(constant.value.maybe_unwrap_block().kind, ExprKind::MacCall(..)) {
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// See self.pending_anon_const_info for explanation
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self.pending_anon_const_info =
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Some(PendingAnonConstInfo { id: constant.id, span: constant.value.span });
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return visit::walk_anon_const(self, constant);
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} else if constant.value.is_potential_trivial_const_arg() {
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if let Some((pending_anon, macro_invoc)) =
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self.is_const_arg_trivial_macro_expansion(constant)
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{
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self.pending_anon_const_info = Some(pending_anon);
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return self.visit_macro_invoc(macro_invoc);
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} else if constant.value.is_potential_trivial_const_arg(true) {
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return visit::walk_anon_const(self, constant);
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}
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@ -368,23 +423,36 @@ fn visit_anon_const(&mut self, constant: &'a AnonConst) {
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}
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fn visit_expr(&mut self, expr: &'a Expr) {
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if matches!(expr.kind, ExprKind::MacCall(..)) {
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return self.visit_macro_invoc(expr.id);
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// If we're visiting the expression of a const argument that was a macro call then
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// check if it is *still* unknown whether it is a trivial const arg or not. If so
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// recurse into the macro call and delay creating the anon const def until expansion.
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if self.pending_anon_const_info.is_some()
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&& let Some((pending_anon, macro_invoc)) =
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self.is_const_arg_sub_expr_trivial_macro_expansion(expr)
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{
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self.pending_anon_const_info = Some(pending_anon);
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return self.visit_macro_invoc(macro_invoc);
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}
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let grandparent_def = if let Some(pending_anon) = self.pending_anon_const_info.take() {
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// See self.pending_anon_const_info for explanation
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if !expr.is_potential_trivial_const_arg() {
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let parent_def = self
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.pending_anon_const_info
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.take()
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// If we already stripped away a set of braces then do not do it again when determining
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// if the macro expanded to a trivial const arg. This arises in cases such as:
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// `Foo<{ bar!() }>` where `bar!()` expands to `{ N }`. This should not be considered a
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// trivial const argument even though `{ N }` by itself *is*.
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.filter(|pending_anon| {
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!expr.is_potential_trivial_const_arg(!pending_anon.block_was_stripped)
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})
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.map(|pending_anon| {
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self.create_def(pending_anon.id, kw::Empty, DefKind::AnonConst, pending_anon.span)
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} else {
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self.parent_def
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}
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} else {
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self.parent_def
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};
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})
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.unwrap_or(self.parent_def);
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self.with_parent(grandparent_def, |this| {
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self.with_parent(parent_def, |this| {
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let parent_def = match expr.kind {
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ExprKind::MacCall(..) => return this.visit_macro_invoc(expr.id),
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ExprKind::Closure(..) | ExprKind::Gen(..) => {
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this.create_def(expr.id, kw::Empty, DefKind::Closure, expr.span)
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}
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@ -4546,7 +4546,7 @@ fn resolve_anon_const(&mut self, constant: &'ast AnonConst, anon_const_kind: Ano
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);
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self.resolve_anon_const_manual(
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constant.value.is_potential_trivial_const_arg(),
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constant.value.is_potential_trivial_const_arg(true),
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anon_const_kind,
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|this| this.resolve_expr(&constant.value, None),
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)
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@ -4710,7 +4710,7 @@ fn resolve_expr(&mut self, expr: &'ast Expr, parent: Option<&'ast Expr>) {
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// that is how they will be later lowered to HIR.
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if const_args.contains(&idx) {
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self.resolve_anon_const_manual(
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argument.is_potential_trivial_const_arg(),
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argument.is_potential_trivial_const_arg(true),
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AnonConstKind::ConstArg(IsRepeatExpr::No),
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|this| this.resolve_expr(argument, None),
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);
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@ -190,6 +190,11 @@ impl InvocationParent {
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#[derive(Copy, Debug, Clone)]
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struct PendingAnonConstInfo {
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// A const arg is only a "trivial" const arg if it has at *most* one set of braces
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// around the argument. We track whether we have stripped an outter brace so that
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// if a macro expands to a braced expression *and* the macro was itself inside of
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// some braces then we can consider it to be a non-trivial const argument.
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block_was_stripped: bool,
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id: NodeId,
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span: Span,
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}
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@ -0,0 +1,14 @@
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macro_rules! y {
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() => {
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N
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};
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}
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struct A<const N: usize>;
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fn foo<const N: usize>() -> A<{ y!() }> {
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A::<1>
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//~^ ERROR: mismatched types
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}
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fn main() {}
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@ -0,0 +1,14 @@
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error[E0308]: mismatched types
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--> $DIR/trivial-const-arg-macro-braced-expansion.rs:10:5
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LL | fn foo<const N: usize>() -> A<{ y!() }> {
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| ----------- expected `A<N>` because of return type
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LL | A::<1>
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| ^^^^^^ expected `N`, found `1`
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= note: expected struct `A<N>`
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found struct `A<1>`
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error: aborting due to 1 previous error
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For more information about this error, try `rustc --explain E0308`.
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@ -0,0 +1,15 @@
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macro_rules! y {
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() => {
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N
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//~^ ERROR: generic parameters may not be used in const operations
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};
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}
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struct A<const N: usize>;
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#[rustfmt::skip]
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fn foo<const N: usize>() -> A<{{ y!() }}> {
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A::<1>
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}
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fn main() {}
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@ -0,0 +1,15 @@
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error: generic parameters may not be used in const operations
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--> $DIR/trivial-const-arg-macro-nested-braces-2.rs:3:9
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LL | N
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| ^ cannot perform const operation using `N`
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...
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LL | fn foo<const N: usize>() -> A<{{ y!() }}> {
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| ---- in this macro invocation
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= help: const parameters may only be used as standalone arguments, i.e. `N`
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= help: add `#![feature(generic_const_exprs)]` to allow generic const expressions
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= note: this error originates in the macro `y` (in Nightly builds, run with -Z macro-backtrace for more info)
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error: aborting due to 1 previous error
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@ -0,0 +1,15 @@
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#[rustfmt::skip]
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macro_rules! y {
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() => {
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{ N }
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//~^ ERROR: generic parameters may not be used in const operations
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};
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}
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struct A<const N: usize>;
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fn foo<const N: usize>() -> A<{ y!() }> {
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A::<1>
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}
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fn main() {}
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@ -0,0 +1,15 @@
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error: generic parameters may not be used in const operations
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--> $DIR/trivial-const-arg-macro-nested-braces.rs:4:11
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LL | { N }
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| ^ cannot perform const operation using `N`
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...
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LL | fn foo<const N: usize>() -> A<{ y!() }> {
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| ---- in this macro invocation
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= help: const parameters may only be used as standalone arguments, i.e. `N`
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= help: add `#![feature(generic_const_exprs)]` to allow generic const expressions
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= note: this error originates in the macro `y` (in Nightly builds, run with -Z macro-backtrace for more info)
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error: aborting due to 1 previous error
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@ -0,0 +1,9 @@
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struct A<const N: usize>;
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#[rustfmt::skip]
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fn foo<const N: usize>() -> A<{ { N } }> {
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//~^ ERROR: generic parameters may not be used in const operations
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A::<1>
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}
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fn main() {}
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@ -0,0 +1,11 @@
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error: generic parameters may not be used in const operations
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--> $DIR/trivial-const-arg-nested-braces.rs:4:35
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LL | fn foo<const N: usize>() -> A<{ { N } }> {
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| ^ cannot perform const operation using `N`
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|
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= help: const parameters may only be used as standalone arguments, i.e. `N`
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= help: add `#![feature(generic_const_exprs)]` to allow generic const expressions
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error: aborting due to 1 previous error
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