internal: Resolve labels in body lowering

This commit is contained in:
Lukas Wirth 2023-04-06 12:50:16 +02:00
parent e9e57725aa
commit 0e7117900c
13 changed files with 420 additions and 182 deletions

View file

@ -13,7 +13,8 @@ use cfg::{CfgExpr, CfgOptions};
use drop_bomb::DropBomb;
use either::Either;
use hir_expand::{
attrs::RawAttrs, hygiene::Hygiene, ExpandError, ExpandResult, HirFileId, InFile, MacroCallId,
attrs::RawAttrs, hygiene::Hygiene, name::Name, ExpandError, ExpandResult, HirFileId, InFile,
MacroCallId,
};
use la_arena::{Arena, ArenaMap};
use limit::Limit;
@ -343,6 +344,8 @@ pub enum BodyDiagnostic {
MacroError { node: InFile<AstPtr<ast::MacroCall>>, message: String },
UnresolvedProcMacro { node: InFile<AstPtr<ast::MacroCall>>, krate: CrateId },
UnresolvedMacroCall { node: InFile<AstPtr<ast::MacroCall>>, path: ModPath },
UnreachableLabel { node: InFile<AstPtr<ast::Lifetime>>, name: Name },
UndeclaredLabel { node: InFile<AstPtr<ast::Lifetime>>, name: Name },
}
impl Body {

View file

@ -102,9 +102,10 @@ pub(super) fn lower(
_c: Count::new(),
},
expander,
current_try_block: None,
current_try_block_label: None,
is_lowering_assignee_expr: false,
is_lowering_generator: false,
label_ribs: Vec::new(),
}
.collect(params, body, is_async_fn)
}
@ -116,9 +117,43 @@ struct ExprCollector<'a> {
body: Body,
krate: CrateId,
source_map: BodySourceMap,
current_try_block: Option<LabelId>,
current_try_block_label: Option<LabelId>,
is_lowering_assignee_expr: bool,
is_lowering_generator: bool,
label_ribs: Vec<LabelRib>,
}
#[derive(Clone, Debug)]
struct LabelRib {
kind: RibKind,
// Once we handle macro hygiene this will need to be a map
label: Option<(Name, LabelId)>,
}
impl LabelRib {
fn new(kind: RibKind) -> Self {
LabelRib { kind, label: None }
}
fn new_normal(label: (Name, LabelId)) -> Self {
LabelRib { kind: RibKind::Normal, label: Some(label) }
}
}
#[derive(Copy, Clone, Debug, PartialEq, Eq)]
enum RibKind {
Normal,
Closure,
Constant,
}
impl RibKind {
/// This rib forbids referring to labels defined in upwards ribs.
fn is_label_barrier(self) -> bool {
match self {
RibKind::Normal => false,
RibKind::Closure | RibKind::Constant => true,
}
}
}
#[derive(Debug, Default)]
@ -171,26 +206,24 @@ impl ExprCollector<'_> {
self.body.params.push(param_pat);
}
};
self.body.body_expr = if is_async_fn {
self.current_try_block =
Some(self.alloc_label_desugared(Label { name: Name::generate_new_name() }));
let expr = self.collect_expr_opt(body);
let expr = self.alloc_expr_desugared(Expr::Block {
self.body.body_expr = self.with_label_rib(RibKind::Closure, |this| {
if is_async_fn {
match body {
Some(e) => {
let expr = this.collect_expr(e);
this.alloc_expr_desugared(Expr::Async {
id: None,
statements: Box::new([]),
tail: Some(expr),
label: self.current_try_block,
});
let expr = self.alloc_expr_desugared(Expr::Async {
id: None,
statements: Box::new([]),
tail: Some(expr),
});
expr
})
}
None => this.missing_expr(),
}
} else {
self.collect_expr_opt(body)
};
this.collect_expr_opt(body)
}
});
(self.body, self.source_map)
}
@ -264,6 +297,7 @@ impl ExprCollector<'_> {
let syntax_ptr = AstPtr::new(&expr);
self.check_cfg(&expr)?;
// FIXME: Move some of these arms out into separate methods for clarity
Some(match expr {
ast::Expr::IfExpr(e) => {
let then_branch = self.collect_block_opt(e.then_branch());
@ -286,7 +320,7 @@ impl ExprCollector<'_> {
self.alloc_expr(Expr::Let { pat, expr }, syntax_ptr)
}
ast::Expr::BlockExpr(e) => match e.modifier() {
Some(ast::BlockModifier::Try(_)) => self.collect_try_block(e),
Some(ast::BlockModifier::Try(_)) => self.desugar_try_block(e),
Some(ast::BlockModifier::Unsafe(_)) => {
self.collect_block_(e, |id, statements, tail| Expr::Unsafe {
id,
@ -296,28 +330,43 @@ impl ExprCollector<'_> {
}
Some(ast::BlockModifier::Label(label)) => {
let label = self.collect_label(label);
self.collect_block_(e, |id, statements, tail| Expr::Block {
self.with_labeled_rib(label, |this| {
this.collect_block_(e, |id, statements, tail| Expr::Block {
id,
statements,
tail,
label: Some(label),
})
})
}
Some(ast::BlockModifier::Async(_)) => {
self.with_label_rib(RibKind::Closure, |this| {
this.collect_block_(e, |id, statements, tail| Expr::Async {
id,
statements,
tail,
})
})
}
Some(ast::BlockModifier::Const(_)) => {
self.with_label_rib(RibKind::Constant, |this| {
this.collect_block_(e, |id, statements, tail| Expr::Const {
id,
statements,
tail,
})
})
}
Some(ast::BlockModifier::Async(_)) => self
.collect_block_(e, |id, statements, tail| Expr::Async { id, statements, tail }),
Some(ast::BlockModifier::Const(_)) => self
.collect_block_(e, |id, statements, tail| Expr::Const { id, statements, tail }),
None => self.collect_block(e),
},
ast::Expr::LoopExpr(e) => {
let label = e.label().map(|label| self.collect_label(label));
let body = self.collect_block_opt(e.loop_body());
let body = self.collect_labelled_block_opt(label, e.loop_body());
self.alloc_expr(Expr::Loop { body, label }, syntax_ptr)
}
ast::Expr::WhileExpr(e) => {
let label = e.label().map(|label| self.collect_label(label));
let body = self.collect_block_opt(e.loop_body());
let body = self.collect_labelled_block_opt(label, e.loop_body());
let condition = self.collect_expr_opt(e.condition());
self.alloc_expr(Expr::While { condition, body, label }, syntax_ptr)
@ -326,7 +375,7 @@ impl ExprCollector<'_> {
let label = e.label().map(|label| self.collect_label(label));
let iterable = self.collect_expr_opt(e.iterable());
let pat = self.collect_pat_opt(e.pat());
let body = self.collect_block_opt(e.loop_body());
let body = self.collect_labelled_block_opt(label, e.loop_body());
self.alloc_expr(Expr::For { iterable, pat, body, label }, syntax_ptr)
}
ast::Expr::CallExpr(e) => {
@ -386,16 +435,20 @@ impl ExprCollector<'_> {
.unwrap_or(Expr::Missing);
self.alloc_expr(path, syntax_ptr)
}
ast::Expr::ContinueExpr(e) => self.alloc_expr(
Expr::Continue { label: e.lifetime().map(|l| Name::new_lifetime(&l)) },
syntax_ptr,
),
ast::Expr::ContinueExpr(e) => {
let label = self.resolve_label(e.lifetime()).unwrap_or_else(|e| {
self.source_map.diagnostics.push(e);
None
});
self.alloc_expr(Expr::Continue { label }, syntax_ptr)
}
ast::Expr::BreakExpr(e) => {
let label = self.resolve_label(e.lifetime()).unwrap_or_else(|e| {
self.source_map.diagnostics.push(e);
None
});
let expr = e.expr().map(|e| self.collect_expr(e));
self.alloc_expr(
Expr::Break { expr, label: e.lifetime().map(|l| Name::new_lifetime(&l)) },
syntax_ptr,
)
self.alloc_expr(Expr::Break { expr, label }, syntax_ptr)
}
ast::Expr::ParenExpr(e) => {
let inner = self.collect_expr_opt(e.expr());
@ -496,14 +549,14 @@ impl ExprCollector<'_> {
None => self.alloc_expr(Expr::Missing, syntax_ptr),
}
}
ast::Expr::ClosureExpr(e) => {
ast::Expr::ClosureExpr(e) => self.with_label_rib(RibKind::Closure, |this| {
let mut args = Vec::new();
let mut arg_types = Vec::new();
if let Some(pl) = e.param_list() {
for param in pl.params() {
let pat = self.collect_pat_opt(param.pat());
let pat = this.collect_pat_opt(param.pat());
let type_ref =
param.ty().map(|it| Interned::new(TypeRef::from_ast(&self.ctx(), it)));
param.ty().map(|it| Interned::new(TypeRef::from_ast(&this.ctx(), it)));
args.push(pat);
arg_types.push(type_ref);
}
@ -511,14 +564,14 @@ impl ExprCollector<'_> {
let ret_type = e
.ret_type()
.and_then(|r| r.ty())
.map(|it| Interned::new(TypeRef::from_ast(&self.ctx(), it)));
.map(|it| Interned::new(TypeRef::from_ast(&this.ctx(), it)));
let prev_is_lowering_generator = self.is_lowering_generator;
self.is_lowering_generator = false;
let prev_is_lowering_generator = this.is_lowering_generator;
this.is_lowering_generator = false;
let body = self.collect_expr_opt(e.body());
let body = this.collect_expr_opt(e.body());
let closure_kind = if self.is_lowering_generator {
let closure_kind = if this.is_lowering_generator {
let movability = if e.static_token().is_some() {
Movability::Static
} else {
@ -530,9 +583,9 @@ impl ExprCollector<'_> {
} else {
ClosureKind::Closure
};
self.is_lowering_generator = prev_is_lowering_generator;
this.is_lowering_generator = prev_is_lowering_generator;
self.alloc_expr(
this.alloc_expr(
Expr::Closure {
args: args.into(),
arg_types: arg_types.into(),
@ -542,7 +595,7 @@ impl ExprCollector<'_> {
},
syntax_ptr,
)
}
}),
ast::Expr::BinExpr(e) => {
let op = e.op_kind();
if let Some(ast::BinaryOp::Assignment { op: None }) = op {
@ -581,7 +634,9 @@ impl ExprCollector<'_> {
}
ArrayExprKind::Repeat { initializer, repeat } => {
let initializer = self.collect_expr_opt(initializer);
let repeat = self.collect_expr_opt(repeat);
let repeat = self.with_label_rib(RibKind::Constant, |this| {
this.collect_expr_opt(repeat)
});
self.alloc_expr(
Expr::Array(Array::Repeat { initializer, repeat }),
syntax_ptr,
@ -630,20 +685,24 @@ impl ExprCollector<'_> {
/// Desugar `try { <stmts>; <expr> }` into `'<new_label>: { <stmts>; ::std::ops::Try::from_output(<expr>) }`,
/// `try { <stmts>; }` into `'<new_label>: { <stmts>; ::std::ops::Try::from_output(()) }`
/// and save the `<new_label>` to use it as a break target for desugaring of the `?` operator.
fn collect_try_block(&mut self, e: BlockExpr) -> ExprId {
fn desugar_try_block(&mut self, e: BlockExpr) -> ExprId {
let Some(try_from_output) = LangItem::TryTraitFromOutput.path(self.db, self.krate) else {
return self.alloc_expr_desugared(Expr::Missing);
return self.collect_block(e);
};
let prev_try_block = self.current_try_block.take();
self.current_try_block =
Some(self.alloc_label_desugared(Label { name: Name::generate_new_name() }));
let expr_id = self.collect_block(e);
let label = self.alloc_label_desugared(Label { name: Name::generate_new_name() });
let old_label = self.current_try_block_label.replace(label);
let (btail, expr_id) = self.with_labeled_rib(label, |this| {
let mut btail = None;
let block = this.collect_block_(e, |id, statements, tail| {
btail = tail;
Expr::Block { id, statements, tail, label: Some(label) }
});
(btail, block)
});
let callee = self.alloc_expr_desugared(Expr::Path(try_from_output));
let Expr::Block { label, tail, .. } = &mut self.body.exprs[expr_id] else {
unreachable!("It is the output of collect block");
};
*label = self.current_try_block;
let next_tail = match *tail {
let next_tail = match btail {
Some(tail) => self.alloc_expr_desugared(Expr::Call {
callee,
args: Box::new([tail]),
@ -662,10 +721,10 @@ impl ExprCollector<'_> {
}
};
let Expr::Block { tail, .. } = &mut self.body.exprs[expr_id] else {
unreachable!("It is the output of collect block");
unreachable!("block was lowered to non-block");
};
*tail = Some(next_tail);
self.current_try_block = prev_try_block;
self.current_try_block_label = old_label;
expr_id
}
@ -735,12 +794,13 @@ impl ExprCollector<'_> {
Expr::Call { callee, args: Box::new([x]), is_assignee_expr: false },
syntax_ptr.clone(),
);
if let Some(label) = self.current_try_block {
let label = Some(self.body.labels[label].name.clone());
self.alloc_expr(Expr::Break { expr: Some(result), label }, syntax_ptr.clone())
} else {
self.alloc_expr(Expr::Return { expr: Some(result) }, syntax_ptr.clone())
}
self.alloc_expr(
match self.current_try_block_label {
Some(label) => Expr::Break { expr: Some(result), label: Some(label) },
None => Expr::Return { expr: Some(result) },
},
syntax_ptr.clone(),
)
},
};
let arms = Box::new([continue_arm, break_arm]);
@ -966,6 +1026,17 @@ impl ExprCollector<'_> {
}
}
fn collect_labelled_block_opt(
&mut self,
label: Option<LabelId>,
expr: Option<ast::BlockExpr>,
) -> ExprId {
match label {
Some(label) => self.with_labeled_rib(label, |this| this.collect_block_opt(expr)),
None => self.collect_block_opt(expr),
}
}
fn collect_label(&mut self, ast_label: ast::Label) -> LabelId {
let label = Label {
name: ast_label.lifetime().as_ref().map_or_else(Name::missing, Name::new_lifetime),
@ -1135,8 +1206,9 @@ impl ExprCollector<'_> {
Pat::Box { inner }
}
ast::Pat::ConstBlockPat(const_block_pat) => {
if let Some(expr) = const_block_pat.block_expr() {
let expr_id = self.collect_block(expr);
if let Some(block) = const_block_pat.block_expr() {
let expr_id =
self.with_label_rib(RibKind::Constant, |this| this.collect_block(block));
Pat::ConstBlock(expr_id)
} else {
Pat::Missing
@ -1213,6 +1285,57 @@ impl ExprCollector<'_> {
fn add_definition_to_binding(&mut self, binding_id: BindingId, pat_id: PatId) {
self.body.bindings[binding_id].definitions.push(pat_id);
}
fn resolve_label(
&self,
lifetime: Option<ast::Lifetime>,
) -> Result<Option<LabelId>, BodyDiagnostic> {
let Some(lifetime) = lifetime else {
return Ok(None)
};
let name = Name::new_lifetime(&lifetime);
for (rib_idx, rib) in self.label_ribs.iter().enumerate().rev() {
if let Some((label_name, id)) = &rib.label {
if *label_name == name {
return if self.is_label_valid_from_rib(rib_idx) {
Ok(Some(*id))
} else {
Err(BodyDiagnostic::UnreachableLabel {
name,
node: InFile::new(
self.expander.current_file_id,
AstPtr::new(&lifetime),
),
})
};
}
}
}
Err(BodyDiagnostic::UndeclaredLabel {
name,
node: InFile::new(self.expander.current_file_id, AstPtr::new(&lifetime)),
})
}
fn is_label_valid_from_rib(&self, rib_index: usize) -> bool {
!self.label_ribs[rib_index + 1..].iter().any(|rib| rib.kind.is_label_barrier())
}
fn with_label_rib<T>(&mut self, kind: RibKind, f: impl FnOnce(&mut Self) -> T) -> T {
self.label_ribs.push(LabelRib::new(kind));
let res = f(self);
self.label_ribs.pop();
res
}
fn with_labeled_rib<T>(&mut self, label: LabelId, f: impl FnOnce(&mut Self) -> T) -> T {
self.label_ribs.push(LabelRib::new_normal((self.body[label].name.clone(), label)));
let res = f(self);
self.label_ribs.pop();
res
}
}
impl From<ast::LiteralKind> for Literal {

View file

@ -219,14 +219,14 @@ impl<'a> Printer<'a> {
}
Expr::Continue { label } => {
w!(self, "continue");
if let Some(label) = label {
w!(self, " {}", label);
if let Some(lbl) = label {
w!(self, " {}", self.body[*lbl].name);
}
}
Expr::Break { expr, label } => {
w!(self, "break");
if let Some(label) = label {
w!(self, " {}", label);
if let Some(lbl) = label {
w!(self, " {}", self.body[*lbl].name);
}
if let Some(expr) = expr {
self.whitespace();

View file

@ -168,11 +168,11 @@ pub enum Expr {
arms: Box<[MatchArm]>,
},
Continue {
label: Option<Name>,
label: Option<LabelId>,
},
Break {
expr: Option<ExprId>,
label: Option<Name>,
label: Option<LabelId>,
},
Return {
expr: Option<ExprId>,

View file

@ -120,8 +120,7 @@ impl Name {
use std::sync::atomic::{AtomicUsize, Ordering};
static CNT: AtomicUsize = AtomicUsize::new(0);
let c = CNT.fetch_add(1, Ordering::Relaxed);
// FIXME: Currently a `__RA_generated_name` in user code will break our analysis
Name::new_text(format!("__RA_geneated_name_{c}").into())
Name::new_text(format!("<ra@gennew>{c}").into())
}
/// Returns the tuple index this name represents if it is a tuple field.

View file

@ -18,6 +18,7 @@ use std::{convert::identity, ops::Index};
use chalk_ir::{cast::Cast, DebruijnIndex, Mutability, Safety, Scalar, TypeFlags};
use either::Either;
use hir_def::expr::LabelId;
use hir_def::{
body::Body,
builtin_type::{BuiltinInt, BuiltinType, BuiltinUint},
@ -188,12 +189,6 @@ pub enum InferenceDiagnostic {
/// Contains the type the field resolves to
field_with_same_name: Option<Ty>,
},
// FIXME: Make this proper
BreakOutsideOfLoop {
expr: ExprId,
is_break: bool,
bad_value_break: bool,
},
MismatchedArgCount {
call_expr: ExprId,
expected: usize,
@ -468,7 +463,7 @@ struct BreakableContext {
/// The coercion target of the context.
coerce: Option<CoerceMany>,
/// The optional label of the context.
label: Option<name::Name>,
label: Option<LabelId>,
kind: BreakableKind,
}
@ -483,28 +478,18 @@ enum BreakableKind {
fn find_breakable<'c>(
ctxs: &'c mut [BreakableContext],
label: Option<&name::Name>,
label: Option<LabelId>,
) -> Option<&'c mut BreakableContext> {
let mut ctxs = ctxs
.iter_mut()
.rev()
.take_while(|it| matches!(it.kind, BreakableKind::Block | BreakableKind::Loop));
match label {
Some(_) => ctxs.find(|ctx| ctx.label.as_ref() == label),
Some(_) => ctxs.find(|ctx| ctx.label == label),
None => ctxs.find(|ctx| matches!(ctx.kind, BreakableKind::Loop)),
}
}
fn find_continuable<'c>(
ctxs: &'c mut [BreakableContext],
label: Option<&name::Name>,
) -> Option<&'c mut BreakableContext> {
match label {
Some(_) => find_breakable(ctxs, label).filter(|it| matches!(it.kind, BreakableKind::Loop)),
None => find_breakable(ctxs, label),
}
}
impl<'a> InferenceContext<'a> {
fn new(
db: &'a dyn HirDatabase,

View file

@ -25,9 +25,7 @@ use syntax::ast::RangeOp;
use crate::{
autoderef::{builtin_deref, deref_by_trait, Autoderef},
consteval,
infer::{
coerce::CoerceMany, find_continuable, pat::contains_explicit_ref_binding, BreakableKind,
},
infer::{coerce::CoerceMany, pat::contains_explicit_ref_binding, BreakableKind},
lang_items::lang_items_for_bin_op,
lower::{
const_or_path_to_chalk, generic_arg_to_chalk, lower_to_chalk_mutability, ParamLoweringMode,
@ -459,29 +457,13 @@ impl<'a> InferenceContext<'a> {
self.resolver.reset_to_guard(g);
ty
}
Expr::Continue { label } => {
if let None = find_continuable(&mut self.breakables, label.as_ref()) {
self.push_diagnostic(InferenceDiagnostic::BreakOutsideOfLoop {
expr: tgt_expr,
is_break: false,
bad_value_break: false,
});
};
self.result.standard_types.never.clone()
}
Expr::Break { expr, label } => {
let val_ty = if let Some(expr) = *expr {
let opt_coerce_to = match find_breakable(&mut self.breakables, label.as_ref()) {
Expr::Continue { .. } => self.result.standard_types.never.clone(),
&Expr::Break { expr, label } => {
let val_ty = if let Some(expr) = expr {
let opt_coerce_to = match find_breakable(&mut self.breakables, label) {
Some(ctxt) => match &ctxt.coerce {
Some(coerce) => coerce.expected_ty(),
None => {
self.push_diagnostic(InferenceDiagnostic::BreakOutsideOfLoop {
expr: tgt_expr,
is_break: true,
bad_value_break: true,
});
self.err_ty()
}
None => self.err_ty(),
},
None => self.err_ty(),
};
@ -490,26 +472,20 @@ impl<'a> InferenceContext<'a> {
TyBuilder::unit()
};
match find_breakable(&mut self.breakables, label.as_ref()) {
match find_breakable(&mut self.breakables, label) {
Some(ctxt) => match ctxt.coerce.take() {
Some(mut coerce) => {
coerce.coerce(self, *expr, &val_ty);
coerce.coerce(self, expr, &val_ty);
// Avoiding borrowck
let ctxt = find_breakable(&mut self.breakables, label.as_ref())
let ctxt = find_breakable(&mut self.breakables, label)
.expect("breakable stack changed during coercion");
ctxt.may_break = true;
ctxt.coerce = Some(coerce);
}
None => ctxt.may_break = true,
},
None => {
self.push_diagnostic(InferenceDiagnostic::BreakOutsideOfLoop {
expr: tgt_expr,
is_break: true,
bad_value_break: false,
});
}
None => {}
}
self.result.standard_types.never.clone()
}
@ -1900,7 +1876,6 @@ impl<'a> InferenceContext<'a> {
cb: impl FnOnce(&mut Self) -> T,
) -> (Option<Ty>, T) {
self.breakables.push({
let label = label.map(|label| self.body[label].name.clone());
BreakableContext { kind, may_break: false, coerce: ty.map(CoerceMany::new), label }
});
let res = cb(self);

View file

@ -47,7 +47,7 @@ struct MirLowerCtx<'a> {
current_loop_blocks: Option<LoopBlocks>,
// FIXME: we should resolve labels in HIR lowering and always work with label id here, not
// with raw names.
labeled_loop_blocks: FxHashMap<Name, LoopBlocks>,
labeled_loop_blocks: FxHashMap<LabelId, LoopBlocks>,
discr_temp: Option<Place>,
db: &'a dyn HirDatabase,
body: &'a Body,
@ -579,19 +579,19 @@ impl MirLowerCtx<'_> {
Ok(None)
}
},
Expr::Break { expr, label } => {
&Expr::Break { expr, label } => {
if let Some(expr) = expr {
let loop_data = match label {
Some(l) => self.labeled_loop_blocks.get(l).ok_or(MirLowerError::UnresolvedLabel)?,
Some(l) => self.labeled_loop_blocks.get(&l).ok_or(MirLowerError::UnresolvedLabel)?,
None => self.current_loop_blocks.as_ref().ok_or(MirLowerError::BreakWithoutLoop)?,
};
let Some(c) = self.lower_expr_to_place(*expr, loop_data.place.clone(), current)? else {
let Some(c) = self.lower_expr_to_place(expr, loop_data.place.clone(), current)? else {
return Ok(None);
};
current = c;
}
let end = match label {
Some(l) => self.labeled_loop_blocks.get(l).ok_or(MirLowerError::UnresolvedLabel)?.end.expect("We always generate end for labeled loops"),
Some(l) => self.labeled_loop_blocks.get(&l).ok_or(MirLowerError::UnresolvedLabel)?.end.expect("We always generate end for labeled loops"),
None => self.current_loop_end()?,
};
self.set_goto(current, end);
@ -1119,10 +1119,8 @@ impl MirLowerCtx<'_> {
// bad as we may emit end (unneccessary unreachable block) for unterminating loop, but
// it should not affect correctness.
self.current_loop_end()?;
self.labeled_loop_blocks.insert(
self.body.labels[label].name.clone(),
self.current_loop_blocks.as_ref().unwrap().clone(),
)
self.labeled_loop_blocks
.insert(label, self.current_loop_blocks.as_ref().unwrap().clone())
} else {
None
};
@ -1131,7 +1129,7 @@ impl MirLowerCtx<'_> {
let my = mem::replace(&mut self.current_loop_blocks, prev)
.ok_or(MirLowerError::ImplementationError("current_loop_blocks is corrupt"))?;
if let Some(prev) = prev_label {
self.labeled_loop_blocks.insert(self.body.labels[label.unwrap()].name.clone(), prev);
self.labeled_loop_blocks.insert(label.unwrap(), prev);
}
Ok(my.end)
}

View file

@ -32,7 +32,6 @@ macro_rules! diagnostics {
}
diagnostics![
BreakOutsideOfLoop,
ExpectedFunction,
InactiveCode,
IncorrectCase,
@ -50,7 +49,9 @@ diagnostics![
PrivateField,
ReplaceFilterMapNextWithFindMap,
TypeMismatch,
UndeclaredLabel,
UnimplementedBuiltinMacro,
UnreachableLabel,
UnresolvedExternCrate,
UnresolvedField,
UnresolvedImport,
@ -84,6 +85,17 @@ pub struct UnresolvedMacroCall {
pub path: ModPath,
pub is_bang: bool,
}
#[derive(Debug, Clone, Eq, PartialEq)]
pub struct UnreachableLabel {
pub node: InFile<AstPtr<ast::Lifetime>>,
pub name: Name,
}
#[derive(Debug, Clone, Eq, PartialEq)]
pub struct UndeclaredLabel {
pub node: InFile<AstPtr<ast::Lifetime>>,
pub name: Name,
}
#[derive(Debug, Clone, Eq, PartialEq)]
pub struct InactiveCode {
@ -166,13 +178,6 @@ pub struct PrivateField {
pub field: Field,
}
#[derive(Debug)]
pub struct BreakOutsideOfLoop {
pub expr: InFile<AstPtr<ast::Expr>>,
pub is_break: bool,
pub bad_value_break: bool,
}
#[derive(Debug)]
pub struct MissingUnsafe {
pub expr: InFile<AstPtr<ast::Expr>>,

View file

@ -85,12 +85,13 @@ use crate::db::{DefDatabase, HirDatabase};
pub use crate::{
attrs::{HasAttrs, Namespace},
diagnostics::{
AnyDiagnostic, BreakOutsideOfLoop, ExpectedFunction, InactiveCode, IncoherentImpl,
IncorrectCase, InvalidDeriveTarget, MacroError, MalformedDerive, MismatchedArgCount,
MissingFields, MissingMatchArms, MissingUnsafe, NeedMut, NoSuchField, PrivateAssocItem,
PrivateField, ReplaceFilterMapNextWithFindMap, TypeMismatch, UnimplementedBuiltinMacro,
UnresolvedExternCrate, UnresolvedField, UnresolvedImport, UnresolvedMacroCall,
UnresolvedMethodCall, UnresolvedModule, UnresolvedProcMacro, UnusedMut,
AnyDiagnostic, ExpectedFunction, InactiveCode, IncoherentImpl, IncorrectCase,
InvalidDeriveTarget, MacroError, MalformedDerive, MismatchedArgCount, MissingFields,
MissingMatchArms, MissingUnsafe, NeedMut, NoSuchField, PrivateAssocItem, PrivateField,
ReplaceFilterMapNextWithFindMap, TypeMismatch, UndeclaredLabel, UnimplementedBuiltinMacro,
UnreachableLabel, UnresolvedExternCrate, UnresolvedField, UnresolvedImport,
UnresolvedMacroCall, UnresolvedMethodCall, UnresolvedModule, UnresolvedProcMacro,
UnusedMut,
},
has_source::HasSource,
semantics::{PathResolution, Semantics, SemanticsScope, TypeInfo, VisibleTraits},
@ -1393,6 +1394,12 @@ impl DefWithBody {
}
.into(),
),
BodyDiagnostic::UnreachableLabel { node, name } => {
acc.push(UnreachableLabel { node: node.clone(), name: name.clone() }.into())
}
BodyDiagnostic::UndeclaredLabel { node, name } => {
acc.push(UndeclaredLabel { node: node.clone(), name: name.clone() }.into())
}
}
}
@ -1405,14 +1412,6 @@ impl DefWithBody {
let field = source_map.field_syntax(expr);
acc.push(NoSuchField { field }.into())
}
&hir_ty::InferenceDiagnostic::BreakOutsideOfLoop {
expr,
is_break,
bad_value_break,
} => {
let expr = expr_syntax(expr);
acc.push(BreakOutsideOfLoop { expr, is_break, bad_value_break }.into())
}
&hir_ty::InferenceDiagnostic::MismatchedArgCount { call_expr, expected, found } => {
acc.push(
MismatchedArgCount { call_expr: expr_syntax(call_expr), expected, found }

View file

@ -0,0 +1,61 @@
use crate::{Diagnostic, DiagnosticsContext};
// Diagnostic: undeclared-label
pub(crate) fn undeclared_label(
ctx: &DiagnosticsContext<'_>,
d: &hir::UndeclaredLabel,
) -> Diagnostic {
let name = &d.name;
Diagnostic::new(
"undeclared-label",
format!("use of undeclared label `{name}`"),
ctx.sema.diagnostics_display_range(d.node.clone().map(|it| it.into())).range,
)
}
#[cfg(test)]
mod tests {
use crate::tests::check_diagnostics;
#[test]
fn smoke_test() {
check_diagnostics(
r#"
fn foo() {
break 'a;
//^^ error: use of undeclared label `'a`
continue 'a;
//^^ error: use of undeclared label `'a`
}
"#,
);
}
#[test]
fn try_operator_desugar_works() {
check_diagnostics(
r#"
//- minicore: option, try
fn foo() {
None?;
}
"#,
);
check_diagnostics(
r#"
//- minicore: option, try, future
async fn foo() {
None?;
}
"#,
);
check_diagnostics(
r#"
//- minicore: option, try, future, fn
async fn foo() {
|| None?;
}
"#,
);
}
}

View file

@ -0,0 +1,87 @@
use crate::{Diagnostic, DiagnosticsContext};
// Diagnostic: unreachable-label
pub(crate) fn unreachable_label(
ctx: &DiagnosticsContext<'_>,
d: &hir::UnreachableLabel,
) -> Diagnostic {
let name = &d.name;
Diagnostic::new(
"unreachable-label",
format!("use of unreachable label `{name}`"),
ctx.sema.diagnostics_display_range(d.node.clone().map(|it| it.into())).range,
)
}
#[cfg(test)]
mod tests {
use crate::tests::check_diagnostics;
#[test]
fn async_blocks_are_borders() {
check_diagnostics(
r#"
fn foo() {
'a: loop {
async {
break 'a;
// ^^ error: use of unreachable label `'a`
continue 'a;
// ^^ error: use of unreachable label `'a`
};
}
}
"#,
);
}
#[test]
fn closures_are_borders() {
check_diagnostics(
r#"
fn foo() {
'a: loop {
|| {
break 'a;
// ^^ error: use of unreachable label `'a`
continue 'a;
// ^^ error: use of unreachable label `'a`
};
}
}
"#,
);
}
#[test]
fn blocks_pass_through() {
check_diagnostics(
r#"
fn foo() {
'a: loop {
{
break 'a;
continue 'a;
}
}
}
"#,
);
}
#[test]
fn try_blocks_pass_through() {
check_diagnostics(
r#"
fn foo() {
'a: loop {
try {
break 'a;
continue 'a;
};
}
}
"#,
);
}
}

View file

@ -26,7 +26,6 @@
#![warn(rust_2018_idioms, unused_lifetimes, semicolon_in_expressions_from_macros)]
mod handlers {
pub(crate) mod break_outside_of_loop;
pub(crate) mod expected_function;
pub(crate) mod inactive_code;
pub(crate) mod incoherent_impl;
@ -52,6 +51,8 @@ mod handlers {
pub(crate) mod unresolved_macro_call;
pub(crate) mod unresolved_module;
pub(crate) mod unresolved_proc_macro;
pub(crate) mod undeclared_label;
pub(crate) mod unreachable_label;
// The handlers below are unusual, the implement the diagnostics as well.
pub(crate) mod field_shorthand;
@ -253,36 +254,38 @@ pub fn diagnostics(
for diag in diags {
#[rustfmt::skip]
let d = match diag {
AnyDiagnostic::BreakOutsideOfLoop(d) => handlers::break_outside_of_loop::break_outside_of_loop(&ctx, &d),
AnyDiagnostic::ExpectedFunction(d) => handlers::expected_function::expected_function(&ctx, &d),
AnyDiagnostic::IncorrectCase(d) => handlers::incorrect_case::incorrect_case(&ctx, &d),
AnyDiagnostic::InactiveCode(d) => match handlers::inactive_code::inactive_code(&ctx, &d) {
Some(it) => it,
None => continue,
}
AnyDiagnostic::IncoherentImpl(d) => handlers::incoherent_impl::incoherent_impl(&ctx, &d),
AnyDiagnostic::IncorrectCase(d) => handlers::incorrect_case::incorrect_case(&ctx, &d),
AnyDiagnostic::InvalidDeriveTarget(d) => handlers::invalid_derive_target::invalid_derive_target(&ctx, &d),
AnyDiagnostic::MacroError(d) => handlers::macro_error::macro_error(&ctx, &d),
AnyDiagnostic::MalformedDerive(d) => handlers::malformed_derive::malformed_derive(&ctx, &d),
AnyDiagnostic::MismatchedArgCount(d) => handlers::mismatched_arg_count::mismatched_arg_count(&ctx, &d),
AnyDiagnostic::MissingFields(d) => handlers::missing_fields::missing_fields(&ctx, &d),
AnyDiagnostic::MissingMatchArms(d) => handlers::missing_match_arms::missing_match_arms(&ctx, &d),
AnyDiagnostic::MissingUnsafe(d) => handlers::missing_unsafe::missing_unsafe(&ctx, &d),
AnyDiagnostic::NeedMut(d) => handlers::mutability_errors::need_mut(&ctx, &d),
AnyDiagnostic::NoSuchField(d) => handlers::no_such_field::no_such_field(&ctx, &d),
AnyDiagnostic::PrivateAssocItem(d) => handlers::private_assoc_item::private_assoc_item(&ctx, &d),
AnyDiagnostic::PrivateField(d) => handlers::private_field::private_field(&ctx, &d),
AnyDiagnostic::ReplaceFilterMapNextWithFindMap(d) => handlers::replace_filter_map_next_with_find_map::replace_filter_map_next_with_find_map(&ctx, &d),
AnyDiagnostic::TypeMismatch(d) => handlers::type_mismatch::type_mismatch(&ctx, &d),
AnyDiagnostic::UndeclaredLabel(d) => handlers::undeclared_label::undeclared_label(&ctx, &d),
AnyDiagnostic::UnimplementedBuiltinMacro(d) => handlers::unimplemented_builtin_macro::unimplemented_builtin_macro(&ctx, &d),
AnyDiagnostic::UnreachableLabel(d) => handlers::unreachable_label:: unreachable_label(&ctx, &d),
AnyDiagnostic::UnresolvedExternCrate(d) => handlers::unresolved_extern_crate::unresolved_extern_crate(&ctx, &d),
AnyDiagnostic::UnresolvedField(d) => handlers::unresolved_field::unresolved_field(&ctx, &d),
AnyDiagnostic::UnresolvedImport(d) => handlers::unresolved_import::unresolved_import(&ctx, &d),
AnyDiagnostic::UnresolvedMacroCall(d) => handlers::unresolved_macro_call::unresolved_macro_call(&ctx, &d),
AnyDiagnostic::UnresolvedMethodCall(d) => handlers::unresolved_method::unresolved_method(&ctx, &d),
AnyDiagnostic::UnresolvedModule(d) => handlers::unresolved_module::unresolved_module(&ctx, &d),
AnyDiagnostic::UnresolvedProcMacro(d) => handlers::unresolved_proc_macro::unresolved_proc_macro(&ctx, &d, config.proc_macros_enabled, config.proc_attr_macros_enabled),
AnyDiagnostic::InvalidDeriveTarget(d) => handlers::invalid_derive_target::invalid_derive_target(&ctx, &d),
AnyDiagnostic::UnresolvedField(d) => handlers::unresolved_field::unresolved_field(&ctx, &d),
AnyDiagnostic::UnresolvedMethodCall(d) => handlers::unresolved_method::unresolved_method(&ctx, &d),
AnyDiagnostic::NeedMut(d) => handlers::mutability_errors::need_mut(&ctx, &d),
AnyDiagnostic::UnusedMut(d) => handlers::mutability_errors::unused_mut(&ctx, &d),
AnyDiagnostic::InactiveCode(d) => match handlers::inactive_code::inactive_code(&ctx, &d) {
Some(it) => it,
None => continue,
}
};
res.push(d)
}