+use crate::lints::{
+ PathStatementDrop, PathStatementDropSub, PathStatementNoEffect, UnusedAllocationDiag,
+ UnusedAllocationMutDiag, UnusedClosure, UnusedDef, UnusedDelim, UnusedDelimSuggestion,
+ UnusedGenerator, UnusedImportBracesDiag, UnusedOp, UnusedResult,
+};
use crate::Lint;
use crate::{EarlyContext, EarlyLintPass, LateContext, LateLintPass, LintContext};
use rustc_ast as ast;
use rustc_ast::util::{classify, parser};
use rustc_ast::{ExprKind, StmtKind};
-use rustc_errors::{fluent, pluralize, Applicability, MultiSpan};
+use rustc_errors::{pluralize, MultiSpan};
use rustc_hir as hir;
use rustc_hir::def::{DefKind, Res};
use rustc_hir::def_id::DefId;
let mut op_warned = false;
if let Some(must_use_op) = must_use_op {
- cx.struct_span_lint(UNUSED_MUST_USE, expr.span, fluent::lint_unused_op, |lint| {
- lint.set_arg("op", must_use_op)
- .span_label(expr.span, fluent::label)
- .span_suggestion_verbose(
- expr.span.shrink_to_lo(),
- fluent::suggestion,
- "let _ = ",
- Applicability::MachineApplicable,
- )
- });
+ cx.emit_spanned_lint(
+ UNUSED_MUST_USE,
+ expr.span,
+ UnusedOp {
+ op: must_use_op,
+ label: expr.span,
+ suggestion: expr.span.shrink_to_lo(),
+ },
+ );
op_warned = true;
}
if !(type_lint_emitted_or_suppressed || fn_warned || op_warned) {
- cx.struct_span_lint(UNUSED_RESULTS, s.span, fluent::lint_unused_result, |lint| {
- lint.set_arg("ty", ty)
- });
+ cx.emit_spanned_lint(UNUSED_RESULTS, s.span, UnusedResult { ty });
}
fn check_fn_must_use(cx: &LateContext<'_>, expr: &hir::Expr<'_>) -> bool {
);
}
MustUsePath::Closure(span) => {
- cx.struct_span_lint(
+ cx.emit_spanned_lint(
UNUSED_MUST_USE,
*span,
- fluent::lint_unused_closure,
- |lint| {
- // FIXME(davidtwco): this isn't properly translatable because of the
- // pre/post strings
- lint.set_arg("count", plural_len)
- .set_arg("pre", descr_pre)
- .set_arg("post", descr_post)
- .note(fluent::note)
- },
+ UnusedClosure { count: plural_len, pre: descr_pre, post: descr_post },
);
}
MustUsePath::Generator(span) => {
- cx.struct_span_lint(
+ cx.emit_spanned_lint(
UNUSED_MUST_USE,
*span,
- fluent::lint_unused_generator,
- |lint| {
- // FIXME(davidtwco): this isn't properly translatable because of the
- // pre/post strings
- lint.set_arg("count", plural_len)
- .set_arg("pre", descr_pre)
- .set_arg("post", descr_post)
- .note(fluent::note)
- },
+ UnusedGenerator { count: plural_len, pre: descr_pre, post: descr_post },
);
}
MustUsePath::Def(span, def_id, reason) => {
- cx.struct_span_lint(UNUSED_MUST_USE, *span, fluent::lint_unused_def, |lint| {
- // FIXME(davidtwco): this isn't properly translatable because of the pre/post
- // strings
- lint.set_arg("pre", descr_pre);
- lint.set_arg("post", descr_post);
- lint.set_arg("def", cx.tcx.def_path_str(*def_id));
- if let Some(note) = reason {
- lint.note(note.as_str());
- }
- lint
- });
+ cx.emit_spanned_lint(
+ UNUSED_MUST_USE,
+ *span,
+ UnusedDef {
+ pre: descr_pre,
+ post: descr_post,
+ cx,
+ def_id: *def_id,
+ note: *reason,
+ },
+ );
}
}
}
if let hir::ExprKind::Path(_) = expr.kind {
let ty = cx.typeck_results().expr_ty(expr);
if ty.needs_drop(cx.tcx, cx.param_env) {
- cx.struct_span_lint(
- PATH_STATEMENTS,
- s.span,
- fluent::lint_path_statement_drop,
- |lint| {
- if let Ok(snippet) = cx.sess().source_map().span_to_snippet(expr.span) {
- lint.span_suggestion(
- s.span,
- fluent::suggestion,
- format!("drop({});", snippet),
- Applicability::MachineApplicable,
- );
- } else {
- lint.span_help(s.span, fluent::suggestion);
- }
- lint
- },
- );
+ let sub = if let Ok(snippet) = cx.sess().source_map().span_to_snippet(expr.span)
+ {
+ PathStatementDropSub::Suggestion { span: s.span, snippet }
+ } else {
+ PathStatementDropSub::Help { span: s.span }
+ };
+ cx.emit_spanned_lint(PATH_STATEMENTS, s.span, PathStatementDrop { sub })
} else {
- cx.struct_span_lint(
- PATH_STATEMENTS,
- s.span,
- fluent::lint_path_statement_no_effect,
- |lint| lint,
- );
+ cx.emit_spanned_lint(PATH_STATEMENTS, s.span, PathStatementNoEffect);
}
}
}
ArrayLenExpr,
AnonConst,
MatchArmExpr,
+ IndexExpr,
}
impl From<UnusedDelimsCtx> for &'static str {
UnusedDelimsCtx::LetScrutineeExpr => "`let` scrutinee expression",
UnusedDelimsCtx::ArrayLenExpr | UnusedDelimsCtx::AnonConst => "const expression",
UnusedDelimsCtx::MatchArmExpr => "match arm expression",
+ UnusedDelimsCtx::IndexExpr => "index expression",
}
}
}
} else {
MultiSpan::from(value_span)
};
- cx.struct_span_lint(self.lint(), primary_span, fluent::lint_unused_delim, |lint| {
- lint.set_arg("delim", Self::DELIM_STR);
- lint.set_arg("item", msg);
- if let Some((lo, hi)) = spans {
- let sm = cx.sess().source_map();
- let lo_replace =
+ let suggestion = spans.map(|(lo, hi)| {
+ let sm = cx.sess().source_map();
+ let lo_replace =
if keep_space.0 &&
let Ok(snip) = sm.span_to_prev_source(lo) && !snip.ends_with(' ') {
- " ".to_string()
+ " "
} else {
- "".to_string()
+ ""
};
- let hi_replace =
+ let hi_replace =
if keep_space.1 &&
let Ok(snip) = sm.span_to_next_source(hi) && !snip.starts_with(' ') {
- " ".to_string()
+ " "
} else {
- "".to_string()
+ ""
};
-
- let replacement = vec![(lo, lo_replace), (hi, hi_replace)];
- lint.multipart_suggestion(
- fluent::suggestion,
- replacement,
- Applicability::MachineApplicable,
- );
+ UnusedDelimSuggestion {
+ start_span: lo,
+ start_replace: lo_replace,
+ end_span: hi,
+ end_replace: hi_replace,
}
- lint
});
+ cx.emit_spanned_lint(
+ self.lint(),
+ primary_span,
+ UnusedDelim { delim: Self::DELIM_STR, item: msg, suggestion },
+ );
}
fn check_expr(&mut self, cx: &EarlyContext<'_>, e: &ast::Expr) {
(value, UnusedDelimsCtx::ReturnValue, false, Some(left), None)
}
+ Index(_, ref value) => (value, UnusedDelimsCtx::IndexExpr, false, None, None),
+
Assign(_, ref value, _) | AssignOp(.., ref value) => {
(value, UnusedDelimsCtx::AssignedValue, false, None, None)
}
"`if`, `match`, `while` and `return` do not need parentheses"
}
-declare_lint_pass!(UnusedParens => [UNUSED_PARENS]);
+pub struct UnusedParens {
+ with_self_ty_parens: bool,
+}
+
+impl UnusedParens {
+ pub fn new() -> Self {
+ Self { with_self_ty_parens: false }
+ }
+}
+
+impl_lint_pass!(UnusedParens => [UNUSED_PARENS]);
impl UnusedDelimLint for UnusedParens {
const DELIM_STR: &'static str = "parentheses";
}
fn check_ty(&mut self, cx: &EarlyContext<'_>, ty: &ast::Ty) {
- if let ast::TyKind::Paren(r) = &ty.kind {
- match &r.kind {
- ast::TyKind::TraitObject(..) => {}
- ast::TyKind::BareFn(b) if b.generic_params.len() > 0 => {}
- ast::TyKind::ImplTrait(_, bounds) if bounds.len() > 1 => {}
- ast::TyKind::Array(_, len) => {
- self.check_unused_delims_expr(
- cx,
- &len.value,
- UnusedDelimsCtx::ArrayLenExpr,
- false,
- None,
- None,
- );
- }
- _ => {
- let spans = if let Some(r) = r.span.find_ancestor_inside(ty.span) {
- Some((ty.span.with_hi(r.lo()), ty.span.with_lo(r.hi())))
- } else {
- None
- };
- self.emit_unused_delims(cx, ty.span, spans, "type", (false, false));
+ match &ty.kind {
+ ast::TyKind::Array(_, len) => {
+ self.check_unused_delims_expr(
+ cx,
+ &len.value,
+ UnusedDelimsCtx::ArrayLenExpr,
+ false,
+ None,
+ None,
+ );
+ }
+ ast::TyKind::Paren(r) => {
+ match &r.kind {
+ ast::TyKind::TraitObject(..) => {}
+ ast::TyKind::BareFn(b)
+ if self.with_self_ty_parens && b.generic_params.len() > 0 => {}
+ ast::TyKind::ImplTrait(_, bounds) if bounds.len() > 1 => {}
+ _ => {
+ let spans = if let Some(r) = r.span.find_ancestor_inside(ty.span) {
+ Some((ty.span.with_hi(r.lo()), ty.span.with_lo(r.hi())))
+ } else {
+ None
+ };
+ self.emit_unused_delims(cx, ty.span, spans, "type", (false, false));
+ }
}
+ self.with_self_ty_parens = false;
}
+ _ => {}
}
}
fn check_item(&mut self, cx: &EarlyContext<'_>, item: &ast::Item) {
<Self as UnusedDelimLint>::check_item(self, cx, item)
}
+
+ fn enter_where_predicate(&mut self, _: &EarlyContext<'_>, pred: &ast::WherePredicate) {
+ use rustc_ast::{WhereBoundPredicate, WherePredicate};
+ if let WherePredicate::BoundPredicate(WhereBoundPredicate {
+ bounded_ty,
+ bound_generic_params,
+ ..
+ }) = pred &&
+ let ast::TyKind::Paren(_) = &bounded_ty.kind &&
+ bound_generic_params.is_empty() {
+ self.with_self_ty_parens = true;
+ }
+ }
+
+ fn exit_where_predicate(&mut self, _: &EarlyContext<'_>, _: &ast::WherePredicate) {
+ assert!(!self.with_self_ty_parens);
+ }
}
declare_lint! {
// ```
// - the block has no attribute and was not created inside a macro
// - if the block is an `anon_const`, the inner expr must be a literal
- // (do not lint `struct A<const N: usize>; let _: A<{ 2 + 3 }>;`)
- //
+ // not created by a macro, i.e. do not lint on:
+ // ```
+ // struct A<const N: usize>;
+ // let _: A<{ 2 + 3 }>;
+ // let _: A<{produces_literal!()}>;
+ // ```
// FIXME(const_generics): handle paths when #67075 is fixed.
if let [stmt] = inner.stmts.as_slice() {
if let ast::StmtKind::Expr(ref expr) = stmt.kind {
if !Self::is_expr_delims_necessary(expr, followed_by_block, false)
&& (ctx != UnusedDelimsCtx::AnonConst
- || matches!(expr.kind, ast::ExprKind::Lit(_)))
+ || (matches!(expr.kind, ast::ExprKind::Lit(_))
+ && !expr.span.from_expansion()))
&& !cx.sess().source_map().is_multiline(value.span)
&& value.attrs.is_empty()
&& !value.span.from_expansion()
ast::UseTreeKind::Nested(_) => return,
};
- cx.struct_span_lint(
+ cx.emit_spanned_lint(
UNUSED_IMPORT_BRACES,
item.span,
- fluent::lint_unused_import_braces,
- |lint| lint.set_arg("node", node_name),
+ UnusedImportBracesDiag { node: node_name },
);
}
}
for adj in cx.typeck_results().expr_adjustments(e) {
if let adjustment::Adjust::Borrow(adjustment::AutoBorrow::Ref(_, m)) = adj.kind {
- cx.struct_span_lint(
- UNUSED_ALLOCATION,
- e.span,
- match m {
- adjustment::AutoBorrowMutability::Not => fluent::lint_unused_allocation,
- adjustment::AutoBorrowMutability::Mut { .. } => {
- fluent::lint_unused_allocation_mut
- }
- },
- |lint| lint,
- );
+ match m {
+ adjustment::AutoBorrowMutability::Not => {
+ cx.emit_spanned_lint(UNUSED_ALLOCATION, e.span, UnusedAllocationDiag);
+ }
+ adjustment::AutoBorrowMutability::Mut { .. } => {
+ cx.emit_spanned_lint(UNUSED_ALLOCATION, e.span, UnusedAllocationMutDiag);
+ }
+ };
}
}
}