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Rollup merge of #102476 - oli-obk:split_error_path, r=cjgillot
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Split out the error reporting logic into a separate function

I was trying to read the function and got distracted by the huge block of code in the middle of it. Turns out it only reports diagnostics and all paths within it end in an error. The main function is now more readable imo.
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@notriddle
notriddle authored Sep 29, 2022
2 parents af33587 + aa3fbf8 commit 9807570
Showing 1 changed file with 140 additions and 134 deletions.
274 changes: 140 additions & 134 deletions compiler/rustc_hir_analysis/src/check/callee.rs
View file
Original file line number Diff line number Diff line change
Expand Up @@ -394,140 +394,7 @@ impl<'a, 'tcx> FnCtxt<'a, 'tcx> {
}
ty::FnPtr(sig) => (sig, None),
_ => {
let mut unit_variant = None;
if let hir::ExprKind::Path(qpath) = &callee_expr.kind
&& let Res::Def(def::DefKind::Ctor(kind, def::CtorKind::Const), _)
= self.typeck_results.borrow().qpath_res(qpath, callee_expr.hir_id)
// Only suggest removing parens if there are no arguments
&& arg_exprs.is_empty()
{
let descr = match kind {
def::CtorOf::Struct => "struct",
def::CtorOf::Variant => "enum variant",
};
let removal_span =
callee_expr.span.shrink_to_hi().to(call_expr.span.shrink_to_hi());
unit_variant =
Some((removal_span, descr, rustc_hir_pretty::qpath_to_string(qpath)));
}

let callee_ty = self.resolve_vars_if_possible(callee_ty);
let mut err = type_error_struct!(
self.tcx.sess,
callee_expr.span,
callee_ty,
E0618,
"expected function, found {}",
match &unit_variant {
Some((_, kind, path)) => format!("{kind} `{path}`"),
None => format!("`{callee_ty}`"),
}
);

self.identify_bad_closure_def_and_call(
&mut err,
call_expr.hir_id,
&callee_expr.kind,
callee_expr.span,
);

if let Some((removal_span, kind, path)) = &unit_variant {
err.span_suggestion_verbose(
*removal_span,
&format!(
"`{path}` is a unit {kind}, and does not take parentheses to be constructed",
),
"",
Applicability::MachineApplicable,
);
}

let mut inner_callee_path = None;
let def = match callee_expr.kind {
hir::ExprKind::Path(ref qpath) => {
self.typeck_results.borrow().qpath_res(qpath, callee_expr.hir_id)
}
hir::ExprKind::Call(ref inner_callee, _) => {
// If the call spans more than one line and the callee kind is
// itself another `ExprCall`, that's a clue that we might just be
// missing a semicolon (Issue #51055)
let call_is_multiline =
self.tcx.sess.source_map().is_multiline(call_expr.span);
if call_is_multiline {
err.span_suggestion(
callee_expr.span.shrink_to_hi(),
"consider using a semicolon here",
";",
Applicability::MaybeIncorrect,
);
}
if let hir::ExprKind::Path(ref inner_qpath) = inner_callee.kind {
inner_callee_path = Some(inner_qpath);
self.typeck_results.borrow().qpath_res(inner_qpath, inner_callee.hir_id)
} else {
Res::Err
}
}
_ => Res::Err,
};

if !self.maybe_suggest_bad_array_definition(&mut err, call_expr, callee_expr) {
if let Some((maybe_def, output_ty, _)) = self.extract_callable_info(callee_expr, callee_ty)
&& !self.type_is_sized_modulo_regions(self.param_env, output_ty, callee_expr.span)
{
let descr = match maybe_def {
DefIdOrName::DefId(def_id) => self.tcx.def_kind(def_id).descr(def_id),
DefIdOrName::Name(name) => name,
};
err.span_label(
callee_expr.span,
format!("this {descr} returns an unsized value `{output_ty}`, so it cannot be called")
);
if let DefIdOrName::DefId(def_id) = maybe_def
&& let Some(def_span) = self.tcx.hir().span_if_local(def_id)
{
err.span_label(def_span, "the callable type is defined here");
}
} else {
err.span_label(call_expr.span, "call expression requires function");
}
}

if let Some(span) = self.tcx.hir().res_span(def) {
let callee_ty = callee_ty.to_string();
let label = match (unit_variant, inner_callee_path) {
(Some((_, kind, path)), _) => Some(format!("{kind} `{path}` defined here")),
(_, Some(hir::QPath::Resolved(_, path))) => self
.tcx
.sess
.source_map()
.span_to_snippet(path.span)
.ok()
.map(|p| format!("`{p}` defined here returns `{callee_ty}`")),
_ => {
match def {
// Emit a different diagnostic for local variables, as they are not
// type definitions themselves, but rather variables *of* that type.
Res::Local(hir_id) => Some(format!(
"`{}` has type `{}`",
self.tcx.hir().name(hir_id),
callee_ty
)),
Res::Def(kind, def_id) if kind.ns() == Some(Namespace::ValueNS) => {
Some(format!(
"`{}` defined here",
self.tcx.def_path_str(def_id),
))
}
_ => Some(format!("`{callee_ty}` defined here")),
}
}
};
if let Some(label) = label {
err.span_label(span, label);
}
}
err.emit();
self.report_invalid_callee(call_expr, callee_expr, callee_ty, arg_exprs);

// This is the "default" function signature, used in case of error.
// In that case, we check each argument against "error" in order to
Expand Down Expand Up @@ -574,6 +441,145 @@ impl<'a, 'tcx> FnCtxt<'a, 'tcx> {
fn_sig.output()
}

fn report_invalid_callee(
&self,
call_expr: &'tcx hir::Expr<'tcx>,
callee_expr: &'tcx hir::Expr<'tcx>,
callee_ty: Ty<'tcx>,
arg_exprs: &'tcx [hir::Expr<'tcx>],
) {
let mut unit_variant = None;
if let hir::ExprKind::Path(qpath) = &callee_expr.kind
&& let Res::Def(def::DefKind::Ctor(kind, def::CtorKind::Const), _)
= self.typeck_results.borrow().qpath_res(qpath, callee_expr.hir_id)
// Only suggest removing parens if there are no arguments
&& arg_exprs.is_empty()
{
let descr = match kind {
def::CtorOf::Struct => "struct",
def::CtorOf::Variant => "enum variant",
};
let removal_span =
callee_expr.span.shrink_to_hi().to(call_expr.span.shrink_to_hi());
unit_variant =
Some((removal_span, descr, rustc_hir_pretty::qpath_to_string(qpath)));
}

let callee_ty = self.resolve_vars_if_possible(callee_ty);
let mut err = type_error_struct!(
self.tcx.sess,
callee_expr.span,
callee_ty,
E0618,
"expected function, found {}",
match &unit_variant {
Some((_, kind, path)) => format!("{kind} `{path}`"),
None => format!("`{callee_ty}`"),
}
);

self.identify_bad_closure_def_and_call(
&mut err,
call_expr.hir_id,
&callee_expr.kind,
callee_expr.span,
);

if let Some((removal_span, kind, path)) = &unit_variant {
err.span_suggestion_verbose(
*removal_span,
&format!(
"`{path}` is a unit {kind}, and does not take parentheses to be constructed",
),
"",
Applicability::MachineApplicable,
);
}

let mut inner_callee_path = None;
let def = match callee_expr.kind {
hir::ExprKind::Path(ref qpath) => {
self.typeck_results.borrow().qpath_res(qpath, callee_expr.hir_id)
}
hir::ExprKind::Call(ref inner_callee, _) => {
// If the call spans more than one line and the callee kind is
// itself another `ExprCall`, that's a clue that we might just be
// missing a semicolon (Issue #51055)
let call_is_multiline = self.tcx.sess.source_map().is_multiline(call_expr.span);
if call_is_multiline {
err.span_suggestion(
callee_expr.span.shrink_to_hi(),
"consider using a semicolon here",
";",
Applicability::MaybeIncorrect,
);
}
if let hir::ExprKind::Path(ref inner_qpath) = inner_callee.kind {
inner_callee_path = Some(inner_qpath);
self.typeck_results.borrow().qpath_res(inner_qpath, inner_callee.hir_id)
} else {
Res::Err
}
}
_ => Res::Err,
};

if !self.maybe_suggest_bad_array_definition(&mut err, call_expr, callee_expr) {
if let Some((maybe_def, output_ty, _)) = self.extract_callable_info(callee_expr, callee_ty)
&& !self.type_is_sized_modulo_regions(self.param_env, output_ty, callee_expr.span)
{
let descr = match maybe_def {
DefIdOrName::DefId(def_id) => self.tcx.def_kind(def_id).descr(def_id),
DefIdOrName::Name(name) => name,
};
err.span_label(
callee_expr.span,
format!("this {descr} returns an unsized value `{output_ty}`, so it cannot be called")
);
if let DefIdOrName::DefId(def_id) = maybe_def
&& let Some(def_span) = self.tcx.hir().span_if_local(def_id)
{
err.span_label(def_span, "the callable type is defined here");
}
} else {
err.span_label(call_expr.span, "call expression requires function");
}
}

if let Some(span) = self.tcx.hir().res_span(def) {
let callee_ty = callee_ty.to_string();
let label = match (unit_variant, inner_callee_path) {
(Some((_, kind, path)), _) => Some(format!("{kind} `{path}` defined here")),
(_, Some(hir::QPath::Resolved(_, path))) => self
.tcx
.sess
.source_map()
.span_to_snippet(path.span)
.ok()
.map(|p| format!("`{p}` defined here returns `{callee_ty}`")),
_ => {
match def {
// Emit a different diagnostic for local variables, as they are not
// type definitions themselves, but rather variables *of* that type.
Res::Local(hir_id) => Some(format!(
"`{}` has type `{}`",
self.tcx.hir().name(hir_id),
callee_ty
)),
Res::Def(kind, def_id) if kind.ns() == Some(Namespace::ValueNS) => {
Some(format!("`{}` defined here", self.tcx.def_path_str(def_id),))
}
_ => Some(format!("`{callee_ty}` defined here")),
}
}
};
if let Some(label) = label {
err.span_label(span, label);
}
}
err.emit();
}

fn confirm_deferred_closure_call(
&self,
call_expr: &'tcx hir::Expr<'tcx>,
Expand Down

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