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|
use clippy_utils::consts::{constant, Constant};
use clippy_utils::diagnostics::{span_lint_and_sugg, span_lint_and_then};
use clippy_utils::source::snippet_with_context;
use clippy_utils::usage::local_used_after_expr;
use clippy_utils::visitors::expr_visitor;
use clippy_utils::{is_diag_item_method, match_def_path, meets_msrv, msrvs, path_to_local_id, paths};
use if_chain::if_chain;
use rustc_errors::Applicability;
use rustc_hir::intravisit::Visitor;
use rustc_hir::{
BindingAnnotation, Expr, ExprKind, HirId, LangItem, Local, MatchSource, Node, Pat, PatKind, QPath, Stmt, StmtKind,
};
use rustc_lint::LateContext;
use rustc_middle::ty;
use rustc_semver::RustcVersion;
use rustc_span::{sym, Span, Symbol, SyntaxContext};
use super::{MANUAL_SPLIT_ONCE, NEEDLESS_SPLITN};
pub(super) fn check(
cx: &LateContext<'_>,
method_name: &str,
expr: &Expr<'_>,
self_arg: &Expr<'_>,
pat_arg: &Expr<'_>,
count: u128,
msrv: Option<RustcVersion>,
) {
if count < 2 || !cx.typeck_results().expr_ty_adjusted(self_arg).peel_refs().is_str() {
return;
}
let needless = |usage_kind| match usage_kind {
IterUsageKind::Nth(n) => count > n + 1,
IterUsageKind::NextTuple => count > 2,
};
let manual = count == 2 && meets_msrv(msrv, msrvs::STR_SPLIT_ONCE);
match parse_iter_usage(cx, expr.span.ctxt(), cx.tcx.hir().parent_iter(expr.hir_id)) {
Some(usage) if needless(usage.kind) => lint_needless(cx, method_name, expr, self_arg, pat_arg),
Some(usage) if manual => check_manual_split_once(cx, method_name, expr, self_arg, pat_arg, &usage),
None if manual => {
check_manual_split_once_indirect(cx, method_name, expr, self_arg, pat_arg);
},
_ => {},
}
}
fn lint_needless(cx: &LateContext<'_>, method_name: &str, expr: &Expr<'_>, self_arg: &Expr<'_>, pat_arg: &Expr<'_>) {
let mut app = Applicability::MachineApplicable;
let r = if method_name == "splitn" { "" } else { "r" };
span_lint_and_sugg(
cx,
NEEDLESS_SPLITN,
expr.span,
&format!("unnecessary use of `{r}splitn`"),
"try this",
format!(
"{}.{r}split({})",
snippet_with_context(cx, self_arg.span, expr.span.ctxt(), "..", &mut app).0,
snippet_with_context(cx, pat_arg.span, expr.span.ctxt(), "..", &mut app).0,
),
app,
);
}
fn check_manual_split_once(
cx: &LateContext<'_>,
method_name: &str,
expr: &Expr<'_>,
self_arg: &Expr<'_>,
pat_arg: &Expr<'_>,
usage: &IterUsage,
) {
let ctxt = expr.span.ctxt();
let (msg, reverse) = if method_name == "splitn" {
("manual implementation of `split_once`", false)
} else {
("manual implementation of `rsplit_once`", true)
};
let mut app = Applicability::MachineApplicable;
let self_snip = snippet_with_context(cx, self_arg.span, ctxt, "..", &mut app).0;
let pat_snip = snippet_with_context(cx, pat_arg.span, ctxt, "..", &mut app).0;
let sugg = match usage.kind {
IterUsageKind::NextTuple => {
if reverse {
format!("{self_snip}.rsplit_once({pat_snip}).map(|(x, y)| (y, x))")
} else {
format!("{self_snip}.split_once({pat_snip})")
}
},
IterUsageKind::Nth(1) => {
let (r, field) = if reverse { ("r", 0) } else { ("", 1) };
match usage.unwrap_kind {
Some(UnwrapKind::Unwrap) => {
format!("{self_snip}.{r}split_once({pat_snip}).unwrap().{field}")
},
Some(UnwrapKind::QuestionMark) => {
format!("{self_snip}.{r}split_once({pat_snip})?.{field}")
},
None => {
format!("{self_snip}.{r}split_once({pat_snip}).map(|x| x.{field})")
},
}
},
IterUsageKind::Nth(_) => return,
};
span_lint_and_sugg(cx, MANUAL_SPLIT_ONCE, usage.span, msg, "try this", sugg, app);
}
/// checks for
///
/// ```
/// let mut iter = "a.b.c".splitn(2, '.');
/// let a = iter.next();
/// let b = iter.next();
/// ```
fn check_manual_split_once_indirect(
cx: &LateContext<'_>,
method_name: &str,
expr: &Expr<'_>,
self_arg: &Expr<'_>,
pat_arg: &Expr<'_>,
) -> Option<()> {
let ctxt = expr.span.ctxt();
let mut parents = cx.tcx.hir().parent_iter(expr.hir_id);
if let (_, Node::Local(local)) = parents.next()?
&& let PatKind::Binding(BindingAnnotation::MUT, iter_binding_id, iter_ident, None) = local.pat.kind
&& let (iter_stmt_id, Node::Stmt(_)) = parents.next()?
&& let (_, Node::Block(enclosing_block)) = parents.next()?
&& let mut stmts = enclosing_block
.stmts
.iter()
.skip_while(|stmt| stmt.hir_id != iter_stmt_id)
.skip(1)
&& let first = indirect_usage(cx, stmts.next()?, iter_binding_id, ctxt)?
&& let second = indirect_usage(cx, stmts.next()?, iter_binding_id, ctxt)?
&& first.unwrap_kind == second.unwrap_kind
&& first.name != second.name
&& !local_used_after_expr(cx, iter_binding_id, second.init_expr)
{
let (r, lhs, rhs) = if method_name == "splitn" {
("", first.name, second.name)
} else {
("r", second.name, first.name)
};
let msg = format!("manual implementation of `{r}split_once`");
let mut app = Applicability::MachineApplicable;
let self_snip = snippet_with_context(cx, self_arg.span, ctxt, "..", &mut app).0;
let pat_snip = snippet_with_context(cx, pat_arg.span, ctxt, "..", &mut app).0;
span_lint_and_then(cx, MANUAL_SPLIT_ONCE, local.span, &msg, |diag| {
diag.span_label(first.span, "first usage here");
diag.span_label(second.span, "second usage here");
let unwrap = match first.unwrap_kind {
UnwrapKind::Unwrap => ".unwrap()",
UnwrapKind::QuestionMark => "?",
};
diag.span_suggestion_verbose(
local.span,
&format!("try `{r}split_once`"),
format!("let ({lhs}, {rhs}) = {self_snip}.{r}split_once({pat_snip}){unwrap};"),
app,
);
let remove_msg = format!("remove the `{iter_ident}` usages");
diag.span_suggestion(
first.span,
&remove_msg,
"",
app,
);
diag.span_suggestion(
second.span,
&remove_msg,
"",
app,
);
});
}
Some(())
}
#[derive(Debug)]
struct IndirectUsage<'a> {
name: Symbol,
span: Span,
init_expr: &'a Expr<'a>,
unwrap_kind: UnwrapKind,
}
/// returns `Some(IndirectUsage)` for e.g.
///
/// ```ignore
/// let name = binding.next()?;
/// let name = binding.next().unwrap();
/// ```
fn indirect_usage<'tcx>(
cx: &LateContext<'tcx>,
stmt: &Stmt<'tcx>,
binding: HirId,
ctxt: SyntaxContext,
) -> Option<IndirectUsage<'tcx>> {
if let StmtKind::Local(Local {
pat: Pat {
kind: PatKind::Binding(BindingAnnotation::NONE, _, ident, None),
..
},
init: Some(init_expr),
hir_id: local_hir_id,
..
}) = stmt.kind
{
let mut path_to_binding = None;
expr_visitor(cx, |expr| {
if path_to_local_id(expr, binding) {
path_to_binding = Some(expr);
}
path_to_binding.is_none()
})
.visit_expr(init_expr);
let mut parents = cx.tcx.hir().parent_iter(path_to_binding?.hir_id);
let iter_usage = parse_iter_usage(cx, ctxt, &mut parents)?;
let (parent_id, _) = parents.find(|(_, node)| {
!matches!(
node,
Node::Expr(Expr {
kind: ExprKind::Match(.., MatchSource::TryDesugar),
..
})
)
})?;
if let IterUsage {
kind: IterUsageKind::Nth(0),
unwrap_kind: Some(unwrap_kind),
..
} = iter_usage
{
if parent_id == *local_hir_id {
return Some(IndirectUsage {
name: ident.name,
span: stmt.span,
init_expr,
unwrap_kind,
});
}
}
}
None
}
#[derive(Debug, Clone, Copy)]
enum IterUsageKind {
Nth(u128),
NextTuple,
}
#[derive(Debug, PartialEq, Eq)]
enum UnwrapKind {
Unwrap,
QuestionMark,
}
#[derive(Debug)]
struct IterUsage {
kind: IterUsageKind,
unwrap_kind: Option<UnwrapKind>,
span: Span,
}
#[allow(clippy::too_many_lines)]
fn parse_iter_usage<'tcx>(
cx: &LateContext<'tcx>,
ctxt: SyntaxContext,
mut iter: impl Iterator<Item = (HirId, Node<'tcx>)>,
) -> Option<IterUsage> {
let (kind, span) = match iter.next() {
Some((_, Node::Expr(e))) if e.span.ctxt() == ctxt => {
let (name, args) = if let ExprKind::MethodCall(name, _, [args @ ..], _) = e.kind {
(name, args)
} else {
return None;
};
let did = cx.typeck_results().type_dependent_def_id(e.hir_id)?;
let iter_id = cx.tcx.get_diagnostic_item(sym::Iterator)?;
match (name.ident.as_str(), args) {
("next", []) if cx.tcx.trait_of_item(did) == Some(iter_id) => (IterUsageKind::Nth(0), e.span),
("next_tuple", []) => {
return if_chain! {
if match_def_path(cx, did, &paths::ITERTOOLS_NEXT_TUPLE);
if let ty::Adt(adt_def, subs) = cx.typeck_results().expr_ty(e).kind();
if cx.tcx.is_diagnostic_item(sym::Option, adt_def.did());
if let ty::Tuple(subs) = subs.type_at(0).kind();
if subs.len() == 2;
then {
Some(IterUsage {
kind: IterUsageKind::NextTuple,
span: e.span,
unwrap_kind: None
})
} else {
None
}
};
},
("nth" | "skip", [idx_expr]) if cx.tcx.trait_of_item(did) == Some(iter_id) => {
if let Some((Constant::Int(idx), _)) = constant(cx, cx.typeck_results(), idx_expr) {
let span = if name.ident.as_str() == "nth" {
e.span
} else {
if_chain! {
if let Some((_, Node::Expr(next_expr))) = iter.next();
if let ExprKind::MethodCall(next_name, _, [], _) = next_expr.kind;
if next_name.ident.name == sym::next;
if next_expr.span.ctxt() == ctxt;
if let Some(next_id) = cx.typeck_results().type_dependent_def_id(next_expr.hir_id);
if cx.tcx.trait_of_item(next_id) == Some(iter_id);
then {
next_expr.span
} else {
return None;
}
}
};
(IterUsageKind::Nth(idx), span)
} else {
return None;
}
},
_ => return None,
}
},
_ => return None,
};
let (unwrap_kind, span) = if let Some((_, Node::Expr(e))) = iter.next() {
match e.kind {
ExprKind::Call(
Expr {
kind: ExprKind::Path(QPath::LangItem(LangItem::TryTraitBranch, ..)),
..
},
_,
) => {
let parent_span = e.span.parent_callsite().unwrap();
if parent_span.ctxt() == ctxt {
(Some(UnwrapKind::QuestionMark), parent_span)
} else {
(None, span)
}
},
_ if e.span.ctxt() != ctxt => (None, span),
ExprKind::MethodCall(name, _, [], _)
if name.ident.name == sym::unwrap
&& cx
.typeck_results()
.type_dependent_def_id(e.hir_id)
.map_or(false, |id| is_diag_item_method(cx, id, sym::Option)) =>
{
(Some(UnwrapKind::Unwrap), e.span)
},
_ => (None, span),
}
} else {
(None, span)
};
Some(IterUsage {
kind,
unwrap_kind,
span,
})
}
|
