rust/clippy_lints/src/len_zero.rs

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use clippy_utils::diagnostics::{span_lint, span_lint_and_sugg, span_lint_and_then};
use clippy_utils::source::snippet_with_applicability;
use clippy_utils::{get_item_name, get_parent_as_impl, is_lint_allowed};
use if_chain::if_chain;
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use rustc_ast::ast::LitKind;
use rustc_errors::Applicability;
use rustc_hir::def_id::DefIdSet;
use rustc_hir::{
def_id::DefId, AssocItemKind, BinOpKind, Expr, ExprKind, FnRetTy, ImplItem, ImplItemKind, ImplicitSelfKind, Item,
ItemKind, Mutability, Node, TraitItemRef, TyKind,
};
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use rustc_lint::{LateContext, LateLintPass};
use rustc_middle::ty::{self, AssocKind, FnSig, Ty};
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use rustc_session::{declare_lint_pass, declare_tool_lint};
use rustc_span::{
source_map::{Span, Spanned, Symbol},
symbol::sym,
};
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declare_clippy_lint! {
/// ### What it does
/// Checks for getting the length of something via `.len()`
/// just to compare to zero, and suggests using `.is_empty()` where applicable.
///
/// ### Why is this bad?
/// Some structures can answer `.is_empty()` much faster
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/// than calculating their length. So it is good to get into the habit of using
/// `.is_empty()`, and having it is cheap.
/// Besides, it makes the intent clearer than a manual comparison in some contexts.
///
/// ### Example
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/// ```ignore
/// if x.len() == 0 {
/// ..
/// }
/// if y.len() != 0 {
/// ..
/// }
/// ```
/// instead use
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/// ```ignore
/// if x.is_empty() {
/// ..
/// }
/// if !y.is_empty() {
/// ..
/// }
/// ```
#[clippy::version = "pre 1.29.0"]
pub LEN_ZERO,
style,
"checking `.len() == 0` or `.len() > 0` (or similar) when `.is_empty()` could be used instead"
}
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declare_clippy_lint! {
/// ### What it does
/// Checks for items that implement `.len()` but not
/// `.is_empty()`.
///
/// ### Why is this bad?
/// It is good custom to have both methods, because for
/// some data structures, asking about the length will be a costly operation,
/// whereas `.is_empty()` can usually answer in constant time. Also it used to
/// lead to false positives on the [`len_zero`](#len_zero) lint currently that
/// lint will ignore such entities.
///
/// ### Example
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/// ```ignore
/// impl X {
/// pub fn len(&self) -> usize {
/// ..
/// }
/// }
/// ```
#[clippy::version = "pre 1.29.0"]
pub LEN_WITHOUT_IS_EMPTY,
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style,
"traits or impls with a public `len` method but no corresponding `is_empty` method"
}
declare_clippy_lint! {
/// ### What it does
/// Checks for comparing to an empty slice such as `""` or `[]`,
/// and suggests using `.is_empty()` where applicable.
///
/// ### Why is this bad?
/// Some structures can answer `.is_empty()` much faster
/// than checking for equality. So it is good to get into the habit of using
/// `.is_empty()`, and having it is cheap.
/// Besides, it makes the intent clearer than a manual comparison in some contexts.
///
/// ### Example
///
/// ```ignore
/// if s == "" {
/// ..
/// }
///
/// if arr == [] {
/// ..
/// }
/// ```
/// Use instead:
/// ```ignore
/// if s.is_empty() {
/// ..
/// }
///
/// if arr.is_empty() {
/// ..
/// }
/// ```
#[clippy::version = "1.49.0"]
pub COMPARISON_TO_EMPTY,
style,
"checking `x == \"\"` or `x == []` (or similar) when `.is_empty()` could be used instead"
}
declare_lint_pass!(LenZero => [LEN_ZERO, LEN_WITHOUT_IS_EMPTY, COMPARISON_TO_EMPTY]);
impl<'tcx> LateLintPass<'tcx> for LenZero {
fn check_item(&mut self, cx: &LateContext<'tcx>, item: &'tcx Item<'_>) {
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if item.span.from_expansion() {
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return;
}
if let ItemKind::Trait(_, _, _, _, trait_items) = item.kind {
check_trait_items(cx, item, trait_items);
}
}
fn check_impl_item(&mut self, cx: &LateContext<'tcx>, item: &'tcx ImplItem<'_>) {
if_chain! {
if item.ident.name == sym::len;
if let ImplItemKind::Fn(sig, _) = &item.kind;
if sig.decl.implicit_self.has_implicit_self();
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if cx.access_levels.is_exported(item.def_id);
if matches!(sig.decl.output, FnRetTy::Return(_));
if let Some(imp) = get_parent_as_impl(cx.tcx, item.hir_id());
if imp.of_trait.is_none();
if let TyKind::Path(ty_path) = &imp.self_ty.kind;
if let Some(ty_id) = cx.qpath_res(ty_path, imp.self_ty.hir_id).opt_def_id();
if let Some(local_id) = ty_id.as_local();
let ty_hir_id = cx.tcx.hir().local_def_id_to_hir_id(local_id);
if !is_lint_allowed(cx, LEN_WITHOUT_IS_EMPTY, ty_hir_id);
if let Some(output) = parse_len_output(cx, cx.tcx.fn_sig(item.def_id).skip_binder());
then {
let (name, kind) = match cx.tcx.hir().find(ty_hir_id) {
Some(Node::ForeignItem(x)) => (x.ident.name, "extern type"),
Some(Node::Item(x)) => match x.kind {
ItemKind::Struct(..) => (x.ident.name, "struct"),
ItemKind::Enum(..) => (x.ident.name, "enum"),
ItemKind::Union(..) => (x.ident.name, "union"),
_ => (x.ident.name, "type"),
}
_ => return,
};
check_for_is_empty(cx, sig.span, sig.decl.implicit_self, output, ty_id, name, kind)
}
}
}
fn check_expr(&mut self, cx: &LateContext<'tcx>, expr: &'tcx Expr<'_>) {
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if expr.span.from_expansion() {
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return;
}
if let ExprKind::Binary(Spanned { node: cmp, .. }, left, right) = expr.kind {
match cmp {
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BinOpKind::Eq => {
check_cmp(cx, expr.span, left, right, "", 0); // len == 0
check_cmp(cx, expr.span, right, left, "", 0); // 0 == len
},
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BinOpKind::Ne => {
check_cmp(cx, expr.span, left, right, "!", 0); // len != 0
check_cmp(cx, expr.span, right, left, "!", 0); // 0 != len
},
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BinOpKind::Gt => {
check_cmp(cx, expr.span, left, right, "!", 0); // len > 0
check_cmp(cx, expr.span, right, left, "", 1); // 1 > len
},
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BinOpKind::Lt => {
check_cmp(cx, expr.span, left, right, "", 1); // len < 1
check_cmp(cx, expr.span, right, left, "!", 0); // 0 < len
},
BinOpKind::Ge => check_cmp(cx, expr.span, left, right, "!", 1), // len >= 1
BinOpKind::Le => check_cmp(cx, expr.span, right, left, "!", 1), // 1 <= len
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_ => (),
}
}
}
}
fn check_trait_items(cx: &LateContext<'_>, visited_trait: &Item<'_>, trait_items: &[TraitItemRef]) {
fn is_named_self(cx: &LateContext<'_>, item: &TraitItemRef, name: Symbol) -> bool {
item.ident.name == name
&& if let AssocItemKind::Fn { has_self } = item.kind {
has_self && { cx.tcx.fn_sig(item.id.def_id).inputs().skip_binder().len() == 1 }
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} else {
false
}
}
// fill the set with current and super traits
fn fill_trait_set(traitt: DefId, set: &mut DefIdSet, cx: &LateContext<'_>) {
if set.insert(traitt) {
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for supertrait in rustc_trait_selection::traits::supertrait_def_ids(cx.tcx, traitt) {
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fill_trait_set(supertrait, set, cx);
}
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}
}
if cx.access_levels.is_exported(visited_trait.def_id) && trait_items.iter().any(|i| is_named_self(cx, i, sym::len))
{
let mut current_and_super_traits = DefIdSet::default();
fill_trait_set(visited_trait.def_id.to_def_id(), &mut current_and_super_traits, cx);
let is_empty = sym!(is_empty);
let is_empty_method_found = current_and_super_traits
.iter()
.flat_map(|&i| cx.tcx.associated_items(i).filter_by_name_unhygienic(is_empty))
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.any(|i| {
i.kind == ty::AssocKind::Fn
&& i.fn_has_self_parameter
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&& cx.tcx.fn_sig(i.def_id).inputs().skip_binder().len() == 1
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});
if !is_empty_method_found {
span_lint(
cx,
LEN_WITHOUT_IS_EMPTY,
visited_trait.span,
&format!(
"trait `{}` has a `len` method but no (possibly inherited) `is_empty` method",
visited_trait.ident.name
),
);
}
}
}
#[derive(Debug, Clone, Copy)]
enum LenOutput<'tcx> {
Integral,
Option(DefId),
Result(DefId, Ty<'tcx>),
}
fn parse_len_output<'tcx>(cx: &LateContext<'_>, sig: FnSig<'tcx>) -> Option<LenOutput<'tcx>> {
match *sig.output().kind() {
ty::Int(_) | ty::Uint(_) => Some(LenOutput::Integral),
ty::Adt(adt, subs) if cx.tcx.is_diagnostic_item(sym::Option, adt.did()) => {
subs.type_at(0).is_integral().then(|| LenOutput::Option(adt.did()))
},
ty::Adt(adt, subs) if cx.tcx.is_diagnostic_item(sym::Result, adt.did()) => subs
.type_at(0)
.is_integral()
.then(|| LenOutput::Result(adt.did(), subs.type_at(1))),
_ => None,
}
}
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impl<'tcx> LenOutput<'tcx> {
fn matches_is_empty_output(self, ty: Ty<'tcx>) -> bool {
match (self, ty.kind()) {
(_, &ty::Bool) => true,
(Self::Option(id), &ty::Adt(adt, subs)) if id == adt.did() => subs.type_at(0).is_bool(),
(Self::Result(id, err_ty), &ty::Adt(adt, subs)) if id == adt.did() => {
subs.type_at(0).is_bool() && subs.type_at(1) == err_ty
},
_ => false,
}
}
fn expected_sig(self, self_kind: ImplicitSelfKind) -> String {
let self_ref = match self_kind {
ImplicitSelfKind::ImmRef => "&",
ImplicitSelfKind::MutRef => "&mut ",
_ => "",
};
match self {
Self::Integral => format!("expected signature: `({}self) -> bool`", self_ref),
Self::Option(_) => format!(
"expected signature: `({}self) -> bool` or `({}self) -> Option<bool>",
self_ref, self_ref
),
Self::Result(..) => format!(
"expected signature: `({}self) -> bool` or `({}self) -> Result<bool>",
self_ref, self_ref
),
}
}
}
/// Checks if the given signature matches the expectations for `is_empty`
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fn check_is_empty_sig<'tcx>(sig: FnSig<'tcx>, self_kind: ImplicitSelfKind, len_output: LenOutput<'tcx>) -> bool {
match &**sig.inputs_and_output {
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[arg, res] if len_output.matches_is_empty_output(*res) => {
matches!(
(arg.kind(), self_kind),
(ty::Ref(_, _, Mutability::Not), ImplicitSelfKind::ImmRef)
| (ty::Ref(_, _, Mutability::Mut), ImplicitSelfKind::MutRef)
) || (!arg.is_ref() && matches!(self_kind, ImplicitSelfKind::Imm | ImplicitSelfKind::Mut))
},
_ => false,
}
}
/// Checks if the given type has an `is_empty` method with the appropriate signature.
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fn check_for_is_empty<'tcx>(
cx: &LateContext<'tcx>,
span: Span,
self_kind: ImplicitSelfKind,
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output: LenOutput<'tcx>,
impl_ty: DefId,
item_name: Symbol,
item_kind: &str,
) {
let is_empty = Symbol::intern("is_empty");
let is_empty = cx
.tcx
.inherent_impls(impl_ty)
.iter()
.flat_map(|&id| cx.tcx.associated_items(id).filter_by_name_unhygienic(is_empty))
.find(|item| item.kind == AssocKind::Fn);
let (msg, is_empty_span, self_kind) = match is_empty {
None => (
format!(
"{} `{}` has a public `len` method, but no `is_empty` method",
item_kind,
item_name.as_str(),
),
None,
None,
),
Some(is_empty) if !cx.access_levels.is_exported(is_empty.def_id.expect_local()) => (
format!(
"{} `{}` has a public `len` method, but a private `is_empty` method",
item_kind,
item_name.as_str(),
),
Some(cx.tcx.def_span(is_empty.def_id)),
None,
),
Some(is_empty)
if !(is_empty.fn_has_self_parameter
&& check_is_empty_sig(cx.tcx.fn_sig(is_empty.def_id).skip_binder(), self_kind, output)) =>
{
(
format!(
"{} `{}` has a public `len` method, but the `is_empty` method has an unexpected signature",
item_kind,
item_name.as_str(),
),
Some(cx.tcx.def_span(is_empty.def_id)),
Some(self_kind),
)
},
Some(_) => return,
};
span_lint_and_then(cx, LEN_WITHOUT_IS_EMPTY, span, &msg, |db| {
if let Some(span) = is_empty_span {
db.span_note(span, "`is_empty` defined here");
}
if let Some(self_kind) = self_kind {
db.note(&output.expected_sig(self_kind));
}
});
}
fn check_cmp(cx: &LateContext<'_>, span: Span, method: &Expr<'_>, lit: &Expr<'_>, op: &str, compare_to: u32) {
if let (&ExprKind::MethodCall(method_path, args, _), &ExprKind::Lit(ref lit)) = (&method.kind, &lit.kind) {
// check if we are in an is_empty() method
if let Some(name) = get_item_name(cx, method) {
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if name.as_str() == "is_empty" {
return;
}
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}
check_len(cx, span, method_path.ident.name, args, &lit.node, op, compare_to);
} else {
check_empty_expr(cx, span, method, lit, op);
}
}
fn check_len(
cx: &LateContext<'_>,
span: Span,
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method_name: Symbol,
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args: &[Expr<'_>],
lit: &LitKind,
op: &str,
compare_to: u32,
) {
if let LitKind::Int(lit, _) = *lit {
// check if length is compared to the specified number
if lit != u128::from(compare_to) {
return;
}
if method_name == sym::len && args.len() == 1 && has_is_empty(cx, &args[0]) {
let mut applicability = Applicability::MachineApplicable;
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span_lint_and_sugg(
cx,
LEN_ZERO,
span,
&format!("length comparison to {}", if compare_to == 0 { "zero" } else { "one" }),
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&format!("using `{}is_empty` is clearer and more explicit", op),
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format!(
"{}{}.is_empty()",
op,
snippet_with_applicability(cx, args[0].span, "_", &mut applicability)
),
applicability,
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);
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}
}
}
fn check_empty_expr(cx: &LateContext<'_>, span: Span, lit1: &Expr<'_>, lit2: &Expr<'_>, op: &str) {
if (is_empty_array(lit2) || is_empty_string(lit2)) && has_is_empty(cx, lit1) {
let mut applicability = Applicability::MachineApplicable;
span_lint_and_sugg(
cx,
COMPARISON_TO_EMPTY,
span,
"comparison to empty slice",
&format!("using `{}is_empty` is clearer and more explicit", op),
format!(
"{}{}.is_empty()",
op,
snippet_with_applicability(cx, lit1.span, "_", &mut applicability)
),
applicability,
);
}
}
fn is_empty_string(expr: &Expr<'_>) -> bool {
if let ExprKind::Lit(ref lit) = expr.kind {
if let LitKind::Str(lit, _) = lit.node {
let lit = lit.as_str();
return lit.is_empty();
}
}
false
}
fn is_empty_array(expr: &Expr<'_>) -> bool {
if let ExprKind::Array(arr) = expr.kind {
return arr.is_empty();
}
false
}
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/// Checks if this type has an `is_empty` method.
fn has_is_empty(cx: &LateContext<'_>, expr: &Expr<'_>) -> bool {
/// Gets an `AssocItem` and return true if it matches `is_empty(self)`.
fn is_is_empty(cx: &LateContext<'_>, item: &ty::AssocItem) -> bool {
if item.kind == ty::AssocKind::Fn {
let sig = cx.tcx.fn_sig(item.def_id);
let ty = sig.skip_binder();
ty.inputs().len() == 1
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} else {
false
}
}
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/// Checks the inherent impl's items for an `is_empty(self)` method.
fn has_is_empty_impl(cx: &LateContext<'_>, id: DefId) -> bool {
let is_empty = sym!(is_empty);
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cx.tcx.inherent_impls(id).iter().any(|imp| {
cx.tcx
.associated_items(*imp)
.filter_by_name_unhygienic(is_empty)
.any(|item| is_is_empty(cx, item))
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})
}
let ty = &cx.typeck_results().expr_ty(expr).peel_refs();
match ty.kind() {
ty::Dynamic(tt, ..) => tt.principal().map_or(false, |principal| {
let is_empty = sym!(is_empty);
cx.tcx
.associated_items(principal.def_id())
.filter_by_name_unhygienic(is_empty)
.any(|item| is_is_empty(cx, item))
}),
ty::Projection(ref proj) => has_is_empty_impl(cx, proj.item_def_id),
ty::Adt(id, _) => has_is_empty_impl(cx, id.did()),
ty::Array(..) | ty::Slice(..) | ty::Str => true,
_ => false,
}
}