[unused_enumerate_index
]: trigger on method calls
The lint used to check for patterns looking like: ```rs for (_, x) in some_iter.enumerate() { // Index is ignored } ``` This commit further checks for chained method calls constructs where we can detect that the index is unused. Currently, this checks only for the following patterns: ```rs some_iter.enumerate().map_function(|(_, x)| ..) let x = some_iter.enumerate(); x.map_function(|(_, x)| ..) ``` where `map_function` is one of `all`, `any`, `filter_map`, `find_map`, `flat_map`, `for_each` or `map`. Fixes #12411.
This commit is contained in:
parent
43f4ec3b13
commit
7cdeac5773
@ -8,6 +8,8 @@
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use rustc_middle::ty;
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/// Checks for the `UNUSED_ENUMERATE_INDEX` lint.
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///
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/// The lint is also partially implemented in `clippy_lints/src/methods/unused_enumerate_index.rs`.
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pub(super) fn check<'tcx>(cx: &LateContext<'tcx>, pat: &Pat<'tcx>, arg: &Expr<'_>, body: &'tcx Expr<'tcx>) {
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if let PatKind::Tuple([index, elem], _) = pat.kind
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&& let ExprKind::MethodCall(_method, self_arg, [], _) = arg.kind
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@ -118,6 +118,7 @@
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mod unnecessary_result_map_or_else;
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mod unnecessary_sort_by;
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mod unnecessary_to_owned;
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mod unused_enumerate_index;
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mod unwrap_expect_used;
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mod useless_asref;
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mod utils;
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@ -4403,6 +4404,7 @@ fn check_methods<'tcx>(&self, cx: &LateContext<'tcx>, expr: &'tcx Expr<'_>) {
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zst_offset::check(cx, expr, recv);
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},
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("all", [arg]) => {
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unused_enumerate_index::check(cx, expr, recv, arg);
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if let Some(("cloned", recv2, [], _, _)) = method_call(recv) {
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iter_overeager_cloned::check(
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cx,
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@ -4421,23 +4423,26 @@ fn check_methods<'tcx>(&self, cx: &LateContext<'tcx>, expr: &'tcx Expr<'_>) {
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unnecessary_lazy_eval::check(cx, expr, recv, arg, "and");
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}
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},
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("any", [arg]) => match method_call(recv) {
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Some(("cloned", recv2, [], _, _)) => iter_overeager_cloned::check(
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cx,
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expr,
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recv,
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recv2,
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iter_overeager_cloned::Op::NeedlessMove(arg),
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false,
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),
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Some(("chars", recv, _, _, _))
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if let ExprKind::Closure(arg) = arg.kind
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&& let body = cx.tcx.hir().body(arg.body)
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&& let [param] = body.params =>
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{
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string_lit_chars_any::check(cx, expr, recv, param, peel_blocks(body.value), &self.msrv);
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},
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_ => {},
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("any", [arg]) => {
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unused_enumerate_index::check(cx, expr, recv, arg);
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match method_call(recv) {
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Some(("cloned", recv2, [], _, _)) => iter_overeager_cloned::check(
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cx,
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expr,
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recv,
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recv2,
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iter_overeager_cloned::Op::NeedlessMove(arg),
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false,
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),
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Some(("chars", recv, _, _, _))
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if let ExprKind::Closure(arg) = arg.kind
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&& let body = cx.tcx.hir().body(arg.body)
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&& let [param] = body.params =>
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{
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string_lit_chars_any::check(cx, expr, recv, param, peel_blocks(body.value), &self.msrv);
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},
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_ => {},
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}
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},
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("arg", [arg]) => {
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suspicious_command_arg_space::check(cx, recv, arg, span);
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@ -4570,14 +4575,17 @@ fn check_methods<'tcx>(&self, cx: &LateContext<'tcx>, expr: &'tcx Expr<'_>) {
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}
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},
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("filter_map", [arg]) => {
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unused_enumerate_index::check(cx, expr, recv, arg);
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unnecessary_filter_map::check(cx, expr, arg, name);
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filter_map_bool_then::check(cx, expr, arg, call_span);
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filter_map_identity::check(cx, expr, arg, span);
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},
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("find_map", [arg]) => {
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unused_enumerate_index::check(cx, expr, recv, arg);
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unnecessary_filter_map::check(cx, expr, arg, name);
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},
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("flat_map", [arg]) => {
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unused_enumerate_index::check(cx, expr, recv, arg);
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flat_map_identity::check(cx, expr, arg, span);
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flat_map_option::check(cx, expr, arg, span);
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},
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@ -4599,17 +4607,20 @@ fn check_methods<'tcx>(&self, cx: &LateContext<'tcx>, expr: &'tcx Expr<'_>) {
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manual_try_fold::check(cx, expr, init, acc, call_span, &self.msrv);
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unnecessary_fold::check(cx, expr, init, acc, span);
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},
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("for_each", [arg]) => match method_call(recv) {
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Some(("inspect", _, [_], span2, _)) => inspect_for_each::check(cx, expr, span2),
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Some(("cloned", recv2, [], _, _)) => iter_overeager_cloned::check(
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cx,
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expr,
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recv,
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recv2,
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iter_overeager_cloned::Op::NeedlessMove(arg),
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false,
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),
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_ => {},
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("for_each", [arg]) => {
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unused_enumerate_index::check(cx, expr, recv, arg);
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match method_call(recv) {
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Some(("inspect", _, [_], span2, _)) => inspect_for_each::check(cx, expr, span2),
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Some(("cloned", recv2, [], _, _)) => iter_overeager_cloned::check(
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cx,
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expr,
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recv,
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recv2,
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iter_overeager_cloned::Op::NeedlessMove(arg),
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false,
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),
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_ => {},
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}
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},
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("get", [arg]) => {
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get_first::check(cx, expr, recv, arg);
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@ -4650,6 +4661,7 @@ fn check_methods<'tcx>(&self, cx: &LateContext<'tcx>, expr: &'tcx Expr<'_>) {
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},
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(name @ ("map" | "map_err"), [m_arg]) => {
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if name == "map" {
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unused_enumerate_index::check(cx, expr, recv, m_arg);
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map_clone::check(cx, expr, recv, m_arg, &self.msrv);
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match method_call(recv) {
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Some((map_name @ ("iter" | "into_iter"), recv2, _, _, _)) => {
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102
clippy_lints/src/methods/unused_enumerate_index.rs
Normal file
102
clippy_lints/src/methods/unused_enumerate_index.rs
Normal file
@ -0,0 +1,102 @@
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use clippy_utils::diagnostics::{multispan_sugg, span_lint_hir_and_then};
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use clippy_utils::paths::{CORE_ITER_ENUMERATE_METHOD, CORE_ITER_ENUMERATE_STRUCT};
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use clippy_utils::source::snippet;
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use clippy_utils::{expr_or_init, is_trait_method, match_def_path, pat_is_wild};
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use rustc_hir::{Expr, ExprKind, PatKind};
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use rustc_lint::LateContext;
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use rustc_middle::ty::AdtDef;
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use rustc_span::sym;
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use crate::loops::UNUSED_ENUMERATE_INDEX;
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/// Check for the `UNUSED_ENUMERATE_INDEX` lint outside of loops.
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///
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/// The lint is declared in `clippy_lints/src/loops/mod.rs`. There, the following pattern is
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/// checked:
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/// ```ignore
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/// for (_, x) in some_iter.enumerate() {
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/// // Index is ignored
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/// }
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/// ```
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///
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/// This `check` function checks for chained method calls constructs where we can detect that the
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/// index is unused. Currently, this checks only for the following patterns:
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/// ```ignore
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/// some_iter.enumerate().map_function(|(_, x)| ..)
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/// let x = some_iter.enumerate();
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/// x.map_function(|(_, x)| ..)
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/// ```
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/// where `map_function` is one of `all`, `any`, `filter_map`, `find_map`, `flat_map`, `for_each` or
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/// `map`.
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///
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/// # Preconditions
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/// This function must be called not on the `enumerate` call expression itself, but on any of the
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/// map functions listed above. It will ensure that `recv` is a `std::iter::Enumerate` instance and
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/// that the method call is one of the `std::iter::Iterator` trait.
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///
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/// * `call_expr`: The map function call expression
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/// * `recv`: The receiver of the call
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/// * `closure_arg`: The argument to the map function call containing the closure/function to apply
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pub(super) fn check(cx: &LateContext<'_>, call_expr: &Expr<'_>, recv: &Expr<'_>, closure_arg: &Expr<'_>) {
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let recv_ty = cx.typeck_results().expr_ty(recv);
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if let Some(recv_ty_defid) = recv_ty.ty_adt_def().map(AdtDef::did)
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// If we call a method on a `std::iter::Enumerate` instance
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&& match_def_path(cx, recv_ty_defid, &CORE_ITER_ENUMERATE_STRUCT)
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// If we are calling a method of the `Iterator` trait
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&& is_trait_method(cx, call_expr, sym::Iterator)
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// And the map argument is a closure
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&& let ExprKind::Closure(closure) = closure_arg.kind
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&& let closure_body = cx.tcx.hir().body(closure.body)
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// And that closure has one argument ...
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&& let [closure_param] = closure_body.params
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// .. which is a tuple of 2 elements
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&& let PatKind::Tuple([index, elem], ..) = closure_param.pat.kind
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// And that the first element (the index) is either `_` or unused in the body
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&& pat_is_wild(cx, &index.kind, closure_body)
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// Try to find the initializer for `recv`. This is needed in case `recv` is a local_binding. In the
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// first example below, `expr_or_init` would return `recv`.
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// ```
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// iter.enumerate().map(|(_, x)| x)
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// ^^^^^^^^^^^^^^^^ `recv`, a call to `std::iter::Iterator::enumerate`
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//
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// let binding = iter.enumerate();
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// ^^^^^^^^^^^^^^^^ `recv_init_expr`
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// binding.map(|(_, x)| x)
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// ^^^^^^^ `recv`, not a call to `std::iter::Iterator::enumerate`
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// ```
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&& let recv_init_expr = expr_or_init(cx, recv)
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// Make sure the initializer is a method call. It may be that the `Enumerate` comes from something
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// that we cannot control.
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// This would for instance happen with:
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// ```
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// external_lib::some_function_returning_enumerate().map(|(_, x)| x)
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// ```
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&& let ExprKind::MethodCall(_, enumerate_recv, _, enumerate_span) = recv_init_expr.kind
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&& let Some(enumerate_defid) = cx.typeck_results().type_dependent_def_id(recv_init_expr.hir_id)
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// Make sure the method call is `std::iter::Iterator::enumerate`.
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&& match_def_path(cx, enumerate_defid, &CORE_ITER_ENUMERATE_METHOD)
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{
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// Suggest removing the tuple from the closure and the preceding call to `enumerate`, whose span we
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// can get from the `MethodCall`.
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span_lint_hir_and_then(
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cx,
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UNUSED_ENUMERATE_INDEX,
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recv_init_expr.hir_id,
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enumerate_span,
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"you seem to use `.enumerate()` and immediately discard the index",
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|diag| {
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multispan_sugg(
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diag,
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"remove the `.enumerate()` call",
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vec![
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(closure_param.span, snippet(cx, elem.span, "..").into_owned()),
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(
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enumerate_span.with_lo(enumerate_recv.span.source_callsite().hi()),
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String::new(),
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),
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],
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);
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},
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);
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}
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}
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@ -19,6 +19,8 @@
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pub const CLONE_TRAIT_METHOD: [&str; 4] = ["core", "clone", "Clone", "clone"];
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pub const CORE_ITER_CLONED: [&str; 6] = ["core", "iter", "traits", "iterator", "Iterator", "cloned"];
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pub const CORE_ITER_COPIED: [&str; 6] = ["core", "iter", "traits", "iterator", "Iterator", "copied"];
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pub const CORE_ITER_ENUMERATE_METHOD: [&str; 6] = ["core", "iter", "traits", "iterator", "Iterator", "enumerate"];
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pub const CORE_ITER_ENUMERATE_STRUCT: [&str; 5] = ["core", "iter", "adapters", "enumerate", "Enumerate"];
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pub const CORE_ITER_FILTER: [&str; 6] = ["core", "iter", "traits", "iterator", "Iterator", "filter"];
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pub const CORE_RESULT_OK_METHOD: [&str; 4] = ["core", "result", "Result", "ok"];
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pub const CSTRING_AS_C_STR: [&str; 5] = ["alloc", "ffi", "c_str", "CString", "as_c_str"];
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@ -3,6 +3,10 @@
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use std::iter::Enumerate;
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fn get_enumerate() -> Enumerate<std::vec::IntoIter<i32>> {
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vec![1].into_iter().enumerate()
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}
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fn main() {
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let v = [1, 2, 3];
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for x in v.iter() {
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@ -55,4 +59,34 @@ fn main() {
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for x in dummy {
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println!("{x}");
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}
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let _ = vec![1, 2, 3].into_iter().map(|x| println!("{x}"));
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let p = vec![1, 2, 3].into_iter();
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p.map(|x| println!("{x}"));
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// This shouldn't trigger the lint. `get_enumerate` may come from an external library on which we
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// have no control.
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let p = get_enumerate();
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p.map(|(_, x)| println!("{x}"));
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// This shouldn't trigger the lint. The `enumerate` call is in a different context.
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macro_rules! mac {
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() => {
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[1].iter().enumerate()
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};
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}
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_ = mac!().map(|(_, v)| v);
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macro_rules! mac2 {
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() => {
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[1].iter()
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};
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}
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_ = mac2!().map(|_v| {});
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// This shouldn't trigger the lint because of the `allow`.
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#[allow(clippy::unused_enumerate_index)]
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let v = [1].iter().enumerate();
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v.map(|(_, _x)| {});
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}
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@ -3,6 +3,10 @@
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use std::iter::Enumerate;
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fn get_enumerate() -> Enumerate<std::vec::IntoIter<i32>> {
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vec![1].into_iter().enumerate()
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}
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fn main() {
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let v = [1, 2, 3];
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for (_, x) in v.iter().enumerate() {
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@ -55,4 +59,34 @@ fn size_hint(&self) -> (usize, Option<usize>) {
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for (_, x) in dummy.enumerate() {
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println!("{x}");
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}
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let _ = vec![1, 2, 3].into_iter().enumerate().map(|(_, x)| println!("{x}"));
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let p = vec![1, 2, 3].into_iter().enumerate();
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p.map(|(_, x)| println!("{x}"));
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// This shouldn't trigger the lint. `get_enumerate` may come from an external library on which we
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// have no control.
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let p = get_enumerate();
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p.map(|(_, x)| println!("{x}"));
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// This shouldn't trigger the lint. The `enumerate` call is in a different context.
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macro_rules! mac {
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() => {
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[1].iter().enumerate()
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};
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}
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_ = mac!().map(|(_, v)| v);
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macro_rules! mac2 {
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() => {
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[1].iter()
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};
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}
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_ = mac2!().enumerate().map(|(_, _v)| {});
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// This shouldn't trigger the lint because of the `allow`.
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#[allow(clippy::unused_enumerate_index)]
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let v = [1].iter().enumerate();
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v.map(|(_, _x)| {});
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}
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|
@ -1,5 +1,5 @@
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error: you seem to use `.enumerate()` and immediately discard the index
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--> tests/ui/unused_enumerate_index.rs:8:19
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--> tests/ui/unused_enumerate_index.rs:12:19
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|
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LL | for (_, x) in v.iter().enumerate() {
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| ^^^^^^^^^^^^^^^^^^^^
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@ -12,7 +12,7 @@ LL | for x in v.iter() {
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| ~ ~~~~~~~~
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error: you seem to use `.enumerate()` and immediately discard the index
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--> tests/ui/unused_enumerate_index.rs:55:19
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--> tests/ui/unused_enumerate_index.rs:59:19
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|
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LL | for (_, x) in dummy.enumerate() {
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| ^^^^^^^^^^^^^^^^^
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@ -22,5 +22,41 @@ help: remove the `.enumerate()` call
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LL | for x in dummy {
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| ~ ~~~~~
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error: aborting due to 2 previous errors
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error: you seem to use `.enumerate()` and immediately discard the index
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--> tests/ui/unused_enumerate_index.rs:63:39
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|
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LL | let _ = vec![1, 2, 3].into_iter().enumerate().map(|(_, x)| println!("{x}"));
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| ^^^^^^^^^^^
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|
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help: remove the `.enumerate()` call
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|
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LL - let _ = vec![1, 2, 3].into_iter().enumerate().map(|(_, x)| println!("{x}"));
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LL + let _ = vec![1, 2, 3].into_iter().map(|x| println!("{x}"));
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|
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error: you seem to use `.enumerate()` and immediately discard the index
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--> tests/ui/unused_enumerate_index.rs:65:39
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|
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LL | let p = vec![1, 2, 3].into_iter().enumerate();
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| ^^^^^^^^^^^
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|
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help: remove the `.enumerate()` call
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|
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LL ~ let p = vec![1, 2, 3].into_iter();
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LL ~ p.map(|x| println!("{x}"));
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|
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error: you seem to use `.enumerate()` and immediately discard the index
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--> tests/ui/unused_enumerate_index.rs:86:17
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|
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LL | _ = mac2!().enumerate().map(|(_, _v)| {});
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| ^^^^^^^^^^^
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|
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help: remove the `.enumerate()` call
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|
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LL - _ = mac2!().enumerate().map(|(_, _v)| {});
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LL + _ = mac2!().map(|_v| {});
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|
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error: aborting due to 5 previous errors
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|
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Reference in New Issue
Block a user