src/tools/clippy/clippy_lints/src/copies.rs - toolchain/rustc - Git at Google

 use clippy_utils::diagnostics::{span_lint_and_note, span_lint_and_then};
 use clippy_utils::source::{first_line_of_span, indent_of, reindent_multiline, snippet, snippet_opt};
 use clippy_utils::ty::{is_interior_mut_ty, needs_ordered_drop};
 use clippy_utils::visitors::for_each_expr;
 use clippy_utils::{
     capture_local_usage, def_path_def_ids, eq_expr_value, find_binding_init, get_enclosing_block, hash_expr, hash_stmt,
     if_sequence, is_else_clause, is_lint_allowed, path_to_local, search_same, ContainsName, HirEqInterExpr, SpanlessEq,
 };
 use core::iter;
 use core::ops::ControlFlow;
 use rustc_errors::Applicability;
 use rustc_hir::def_id::DefIdSet;
 use rustc_hir::{intravisit, BinOpKind, Block, Expr, ExprKind, HirId, HirIdSet, Stmt, StmtKind};
 use rustc_lint::{LateContext, LateLintPass};
 use rustc_session::impl_lint_pass;
 use rustc_span::hygiene::walk_chain;
 use rustc_span::source_map::SourceMap;
 use rustc_span::{BytePos, Span, Symbol};
 use std::borrow::Cow;

 declare_clippy_lint! {
     /// ### What it does
     /// Checks for consecutive `if`s with the same condition.
     ///
     /// ### Why is this bad?
     /// This is probably a copy & paste error.
     ///
     /// ### Example
     /// ```ignore
     /// if a == b {
     ///     …
     /// } else if a == b {
     ///     …
     /// }
     /// ```
     ///
     /// Note that this lint ignores all conditions with a function call as it could
     /// have side effects:
     ///
     /// ```ignore
     /// if foo() {
     ///     …
     /// } else if foo() { // not linted
     ///     …
     /// }
     /// ```
     #[clippy::version = "pre 1.29.0"]
     pub IFS_SAME_COND,
     correctness,
     "consecutive `if`s with the same condition"
 }

 declare_clippy_lint! {
     /// ### What it does
     /// Checks for consecutive `if`s with the same function call.
     ///
     /// ### Why is this bad?
     /// This is probably a copy & paste error.
     /// Despite the fact that function can have side effects and `if` works as
     /// intended, such an approach is implicit and can be considered a "code smell".
     ///
     /// ### Example
     /// ```ignore
     /// if foo() == bar {
     ///     …
     /// } else if foo() == bar {
     ///     …
     /// }
     /// ```
     ///
     /// This probably should be:
     /// ```ignore
     /// if foo() == bar {
     ///     …
     /// } else if foo() == baz {
     ///     …
     /// }
     /// ```
     ///
     /// or if the original code was not a typo and called function mutates a state,
     /// consider move the mutation out of the `if` condition to avoid similarity to
     /// a copy & paste error:
     ///
     /// ```ignore
     /// let first = foo();
     /// if first == bar {
     ///     …
     /// } else {
     ///     let second = foo();
     ///     if second == bar {
     ///     …
     ///     }
     /// }
     /// ```
     #[clippy::version = "1.41.0"]
     pub SAME_FUNCTIONS_IN_IF_CONDITION,
     pedantic,
     "consecutive `if`s with the same function call"
 }

 declare_clippy_lint! {
     /// ### What it does
     /// Checks for `if/else` with the same body as the *then* part
     /// and the *else* part.
     ///
     /// ### Why is this bad?
     /// This is probably a copy & paste error.
     ///
     /// ### Example
     /// ```ignore
     /// let foo = if … {
     ///     42
     /// } else {
     ///     42
     /// };
     /// ```
     #[clippy::version = "pre 1.29.0"]
     pub IF_SAME_THEN_ELSE,
     style,
     "`if` with the same `then` and `else` blocks"
 }

 declare_clippy_lint! {
     /// ### What it does
     /// Checks if the `if` and `else` block contain shared code that can be
     /// moved out of the blocks.
     ///
     /// ### Why is this bad?
     /// Duplicate code is less maintainable.
     ///
     /// ### Known problems
     /// * The lint doesn't check if the moved expressions modify values that are being used in
     ///   the if condition. The suggestion can in that case modify the behavior of the program.
     ///   See [rust-clippy#7452](https://github.com/rust-lang/rust-clippy/issues/7452)
     ///
     /// ### Example
     /// ```ignore
     /// let foo = if … {
     ///     println!("Hello World");
     ///     13
     /// } else {
     ///     println!("Hello World");
     ///     42
     /// };
     /// ```
     ///
     /// Use instead:
     /// ```ignore
     /// println!("Hello World");
     /// let foo = if … {
     ///     13
     /// } else {
     ///     42
     /// };
     /// ```
     #[clippy::version = "1.53.0"]
     pub BRANCHES_SHARING_CODE,
     nursery,
     "`if` statement with shared code in all blocks"
 }

 pub struct CopyAndPaste {
     ignore_interior_mutability: Vec<String>,
     ignored_ty_ids: DefIdSet,
 }

 impl CopyAndPaste {
     pub fn new(ignore_interior_mutability: Vec<String>) -> Self {
         Self {
             ignore_interior_mutability,
             ignored_ty_ids: DefIdSet::new(),
         }
     }
 }

 impl_lint_pass!(CopyAndPaste => [
     IFS_SAME_COND,
     SAME_FUNCTIONS_IN_IF_CONDITION,
     IF_SAME_THEN_ELSE,
     BRANCHES_SHARING_CODE
 ]);

 impl<'tcx> LateLintPass<'tcx> for CopyAndPaste {
     fn check_crate(&mut self, cx: &LateContext<'tcx>) {
         for ignored_ty in &self.ignore_interior_mutability {
             let path: Vec<&str> = ignored_ty.split("::").collect();
             for id in def_path_def_ids(cx, path.as_slice()) {
                 self.ignored_ty_ids.insert(id);
             }
         }
     }
     fn check_expr(&mut self, cx: &LateContext<'tcx>, expr: &'tcx Expr<'_>) {
         if !expr.span.from_expansion() && matches!(expr.kind, ExprKind::If(..)) && !is_else_clause(cx.tcx, expr) {
             let (conds, blocks) = if_sequence(expr);
             lint_same_cond(cx, &conds, &self.ignored_ty_ids);
             lint_same_fns_in_if_cond(cx, &conds);
             let all_same =
                 !is_lint_allowed(cx, IF_SAME_THEN_ELSE, expr.hir_id) && lint_if_same_then_else(cx, &conds, &blocks);
             if !all_same && conds.len() != blocks.len() {
                 lint_branches_sharing_code(cx, &conds, &blocks, expr);
             }
         }
     }
 }

 /// Checks if the given expression is a let chain.
 fn contains_let(e: &Expr<'_>) -> bool {
     match e.kind {
         ExprKind::Let(..) => true,
         ExprKind::Binary(op, lhs, rhs) if op.node == BinOpKind::And => {
             matches!(lhs.kind, ExprKind::Let(..)) || contains_let(rhs)
         },
         _ => false,
     }
 }

 fn lint_if_same_then_else(cx: &LateContext<'_>, conds: &[&Expr<'_>], blocks: &[&Block<'_>]) -> bool {
     let mut eq = SpanlessEq::new(cx);
     blocks
         .array_windows::<2>()
         .enumerate()
         .fold(true, |all_eq, (i, &[lhs, rhs])| {
             if eq.eq_block(lhs, rhs) && !contains_let(conds[i]) && conds.get(i + 1).map_or(true, |e| !contains_let(e)) {
                 span_lint_and_note(
                     cx,
                     IF_SAME_THEN_ELSE,
                     lhs.span,
                     "this `if` has identical blocks",
                     Some(rhs.span),
                     "same as this",
                 );
                 all_eq
             } else {
                 false
             }
         })
 }

 fn lint_branches_sharing_code<'tcx>(
     cx: &LateContext<'tcx>,
     conds: &[&'tcx Expr<'_>],
     blocks: &[&'tcx Block<'_>],
     expr: &'tcx Expr<'_>,
 ) {
     // We only lint ifs with multiple blocks
     let &[first_block, ref blocks @ ..] = blocks else {
         return;
     };
     let &[.., last_block] = blocks else {
         return;
     };

     let res = scan_block_for_eq(cx, conds, first_block, blocks);
     let sm = cx.tcx.sess.source_map();
     let start_suggestion = res.start_span(first_block, sm).map(|span| {
         let first_line_span = first_line_of_span(cx, expr.span);
         let replace_span = first_line_span.with_hi(span.hi());
         let cond_span = first_line_span.until(first_block.span);
         let cond_snippet = reindent_multiline(snippet(cx, cond_span, "_"), false, None);
         let cond_indent = indent_of(cx, cond_span);
         let moved_snippet = reindent_multiline(snippet(cx, span, "_"), true, None);
         let suggestion = moved_snippet.to_string() + "\n" + &cond_snippet + "{";
         let suggestion = reindent_multiline(Cow::Borrowed(&suggestion), true, cond_indent);
         (replace_span, suggestion.to_string())
     });
     let end_suggestion = res.end_span(last_block, sm).map(|span| {
         let moved_snipped = reindent_multiline(snippet(cx, span, "_"), true, None);
         let indent = indent_of(cx, expr.span.shrink_to_hi());
         let suggestion = "}\n".to_string() + &moved_snipped;
         let suggestion = reindent_multiline(Cow::Borrowed(&suggestion), true, indent);

         let span = span.with_hi(last_block.span.hi());
         // Improve formatting if the inner block has indention (i.e. normal Rust formatting)
         let test_span = Span::new(span.lo() - BytePos(4), span.lo(), span.ctxt(), span.parent());
         let span = if snippet_opt(cx, test_span).map_or(false, |snip| snip == "    ") {
             span.with_lo(test_span.lo())
         } else {
             span
         };
         (span, suggestion.to_string())
     });

     let (span, msg, end_span) = match (&start_suggestion, &end_suggestion) {
         (&Some((span, _)), &Some((end_span, _))) => (
             span,
             "all if blocks contain the same code at both the start and the end",
             Some(end_span),
         ),
         (&Some((span, _)), None) => (span, "all if blocks contain the same code at the start", None),
         (None, &Some((span, _))) => (span, "all if blocks contain the same code at the end", None),
         (None, None) => return,
     };
     span_lint_and_then(cx, BRANCHES_SHARING_CODE, span, msg, |diag| {
         if let Some(span) = end_span {
             diag.span_note(span, "this code is shared at the end");
         }
         if let Some((span, sugg)) = start_suggestion {
             diag.span_suggestion(
                 span,
                 "consider moving these statements before the if",
                 sugg,
                 Applicability::Unspecified,
             );
         }
         if let Some((span, sugg)) = end_suggestion {
             diag.span_suggestion(
                 span,
                 "consider moving these statements after the if",
                 sugg,
                 Applicability::Unspecified,
             );
             if !cx.typeck_results().expr_ty(expr).is_unit() {
                 diag.note("the end suggestion probably needs some adjustments to use the expression result correctly");
             }
         }
         if check_for_warn_of_moved_symbol(cx, &res.moved_locals, expr) {
             diag.warn("some moved values might need to be renamed to avoid wrong references");
         }
     });
 }

 struct BlockEq {
     /// The end of the range of equal stmts at the start.
     start_end_eq: usize,
     /// The start of the range of equal stmts at the end.
     end_begin_eq: Option<usize>,
     /// The name and id of every local which can be moved at the beginning and the end.
     moved_locals: Vec<(HirId, Symbol)>,
 }
 impl BlockEq {
     fn start_span(&self, b: &Block<'_>, sm: &SourceMap) -> Option<Span> {
         match &b.stmts[..self.start_end_eq] {
             [first, .., last] => Some(sm.stmt_span(first.span, b.span).to(sm.stmt_span(last.span, b.span))),
             [s] => Some(sm.stmt_span(s.span, b.span)),
             [] => None,
         }
     }

     fn end_span(&self, b: &Block<'_>, sm: &SourceMap) -> Option<Span> {
         match (&b.stmts[b.stmts.len() - self.end_begin_eq?..], b.expr) {
             ([first, .., last], None) => Some(sm.stmt_span(first.span, b.span).to(sm.stmt_span(last.span, b.span))),
             ([first, ..], Some(last)) => Some(sm.stmt_span(first.span, b.span).to(sm.stmt_span(last.span, b.span))),
             ([s], None) => Some(sm.stmt_span(s.span, b.span)),
             ([], Some(e)) => Some(walk_chain(e.span, b.span.ctxt())),
             ([], None) => None,
         }
     }
 }

 /// If the statement is a local, checks if the bound names match the expected list of names.
 fn eq_binding_names(s: &Stmt<'_>, names: &[(HirId, Symbol)]) -> bool {
     if let StmtKind::Let(l) = s.kind {
         let mut i = 0usize;
         let mut res = true;
         l.pat.each_binding_or_first(&mut |_, _, _, name| {
             if names.get(i).map_or(false, |&(_, n)| n == name.name) {
                 i += 1;
             } else {
                 res = false;
             }
         });
         res && i == names.len()
     } else {
         false
     }
 }

 /// Checks if the statement modifies or moves any of the given locals.
 fn modifies_any_local<'tcx>(cx: &LateContext<'tcx>, s: &'tcx Stmt<'_>, locals: &HirIdSet) -> bool {
     for_each_expr(s, |e| {
         if let Some(id) = path_to_local(e)
             && locals.contains(&id)
             && !capture_local_usage(cx, e).is_imm_ref()
         {
             ControlFlow::Break(())
         } else {
             ControlFlow::Continue(())
         }
     })
     .is_some()
 }

 /// Checks if the given statement should be considered equal to the statement in the same position
 /// for each block.
 fn eq_stmts(
     stmt: &Stmt<'_>,
     blocks: &[&Block<'_>],
     get_stmt: impl for<'a> Fn(&'a Block<'a>) -> Option<&'a Stmt<'a>>,
     eq: &mut HirEqInterExpr<'_, '_, '_>,
     moved_bindings: &mut Vec<(HirId, Symbol)>,
 ) -> bool {
     (if let StmtKind::Let(l) = stmt.kind {
         let old_count = moved_bindings.len();
         l.pat.each_binding_or_first(&mut |_, id, _, name| {
             moved_bindings.push((id, name.name));
         });
         let new_bindings = &moved_bindings[old_count..];
         blocks
             .iter()
             .all(|b| get_stmt(b).map_or(false, |s| eq_binding_names(s, new_bindings)))
     } else {
         true
     }) && blocks
         .iter()
         .all(|b| get_stmt(b).map_or(false, |s| eq.eq_stmt(s, stmt)))
 }

 #[expect(clippy::too_many_lines)]
 fn scan_block_for_eq<'tcx>(
     cx: &LateContext<'tcx>,
     conds: &[&'tcx Expr<'_>],
     block: &'tcx Block<'_>,
     blocks: &[&'tcx Block<'_>],
 ) -> BlockEq {
     let mut eq = SpanlessEq::new(cx);
     let mut eq = eq.inter_expr();
     let mut moved_locals = Vec::new();

     let mut cond_locals = HirIdSet::default();
     for &cond in conds {
         let _: Option<!> = for_each_expr(cond, |e| {
             if let Some(id) = path_to_local(e) {
                 cond_locals.insert(id);
             }
             ControlFlow::Continue(())
         });
     }

     let mut local_needs_ordered_drop = false;
     let start_end_eq = block
         .stmts
         .iter()
         .enumerate()
         .find(|&(i, stmt)| {
             if let StmtKind::Let(l) = stmt.kind
                 && needs_ordered_drop(cx, cx.typeck_results().node_type(l.hir_id))
             {
                 local_needs_ordered_drop = true;
                 return true;
             }
             modifies_any_local(cx, stmt, &cond_locals)
                 || !eq_stmts(stmt, blocks, |b| b.stmts.get(i), &mut eq, &mut moved_locals)
         })
         .map_or(block.stmts.len(), |(i, _)| i);

     if local_needs_ordered_drop {
         return BlockEq {
             start_end_eq,
             end_begin_eq: None,
             moved_locals,
         };
     }

     // Walk backwards through the final expression/statements so long as their hashes are equal. Note
     // `SpanlessHash` treats all local references as equal allowing locals declared earlier in the block
     // to match those in other blocks. e.g. If each block ends with the following the hash value will be
     // the same even though each `x` binding will have a different `HirId`:
     //     let x = foo();
     //     x + 50
     let expr_hash_eq = if let Some(e) = block.expr {
         let hash = hash_expr(cx, e);
         blocks
             .iter()
             .all(|b| b.expr.map_or(false, |e| hash_expr(cx, e) == hash))
     } else {
         blocks.iter().all(|b| b.expr.is_none())
     };
     if !expr_hash_eq {
         return BlockEq {
             start_end_eq,
             end_begin_eq: None,
             moved_locals,
         };
     }
     let end_search_start = block.stmts[start_end_eq..]
         .iter()
         .rev()
         .enumerate()
         .find(|&(offset, stmt)| {
             let hash = hash_stmt(cx, stmt);
             blocks.iter().any(|b| {
                 b.stmts
                     // the bounds check will catch the underflow
                     .get(b.stmts.len().wrapping_sub(offset + 1))
                     .map_or(true, |s| hash != hash_stmt(cx, s))
             })
         })
         .map_or(block.stmts.len() - start_end_eq, |(i, _)| i);

     let moved_locals_at_start = moved_locals.len();
     let mut i = end_search_start;
     let end_begin_eq = block.stmts[block.stmts.len() - end_search_start..]
         .iter()
         .zip(iter::repeat_with(move || {
             let x = i;
             i -= 1;
             x
         }))
         .fold(end_search_start, |init, (stmt, offset)| {
             if eq_stmts(
                 stmt,
                 blocks,
                 |b| b.stmts.get(b.stmts.len() - offset),
                 &mut eq,
                 &mut moved_locals,
             ) {
                 init
             } else {
                 // Clear out all locals seen at the end so far. None of them can be moved.
                 let stmts = &blocks[0].stmts;
                 for stmt in &stmts[stmts.len() - init..=stmts.len() - offset] {
                     if let StmtKind::Let(l) = stmt.kind {
                         l.pat.each_binding_or_first(&mut |_, id, _, _| {
                             // FIXME(rust/#120456) - is `swap_remove` correct?
                             eq.locals.swap_remove(&id);
                         });
                     }
                 }
                 moved_locals.truncate(moved_locals_at_start);
                 offset - 1
             }
         });
     if let Some(e) = block.expr {
         for block in blocks {
             if block.expr.map_or(false, |expr| !eq.eq_expr(expr, e)) {
                 moved_locals.truncate(moved_locals_at_start);
                 return BlockEq {
                     start_end_eq,
                     end_begin_eq: None,
                     moved_locals,
                 };
             }
         }
     }

     BlockEq {
         start_end_eq,
         end_begin_eq: Some(end_begin_eq),
         moved_locals,
     }
 }

 fn check_for_warn_of_moved_symbol(cx: &LateContext<'_>, symbols: &[(HirId, Symbol)], if_expr: &Expr<'_>) -> bool {
     get_enclosing_block(cx, if_expr.hir_id).map_or(false, |block| {
         let ignore_span = block.span.shrink_to_lo().to(if_expr.span);

         symbols
             .iter()
             .filter(|&&(_, name)| !name.as_str().starts_with('_'))
             .any(|&(_, name)| {
                 let mut walker = ContainsName {
                     name,
                     result: false,
                     cx,
                 };

                 // Scan block
                 block
                     .stmts
                     .iter()
                     .filter(|stmt| !ignore_span.overlaps(stmt.span))
                     .for_each(|stmt| intravisit::walk_stmt(&mut walker, stmt));

                 if let Some(expr) = block.expr {
                     intravisit::walk_expr(&mut walker, expr);
                 }

                 walker.result
             })
     })
 }

 fn method_caller_is_mutable(cx: &LateContext<'_>, caller_expr: &Expr<'_>, ignored_ty_ids: &DefIdSet) -> bool {
     let caller_ty = cx.typeck_results().expr_ty(caller_expr);
     // Check if given type has inner mutability and was not set to ignored by the configuration
     let is_inner_mut_ty = is_interior_mut_ty(cx, caller_ty)
         && !matches!(caller_ty.ty_adt_def(), Some(adt) if ignored_ty_ids.contains(&adt.did()));

     is_inner_mut_ty
         || caller_ty.is_mutable_ptr()
         // `find_binding_init` will return the binding iff its not mutable
         || path_to_local(caller_expr)
             .and_then(|hid| find_binding_init(cx, hid))
             .is_none()
 }

 /// Implementation of `IFS_SAME_COND`.
 fn lint_same_cond(cx: &LateContext<'_>, conds: &[&Expr<'_>], ignored_ty_ids: &DefIdSet) {
     for (i, j) in search_same(
         conds,
         |e| hash_expr(cx, e),
         |lhs, rhs| {
             // Ignore eq_expr side effects iff one of the expression kind is a method call
             // and the caller is not a mutable, including inner mutable type.
             if let ExprKind::MethodCall(_, caller, _, _) = lhs.kind {
                 if method_caller_is_mutable(cx, caller, ignored_ty_ids) {
                     false
                 } else {
                     SpanlessEq::new(cx).eq_expr(lhs, rhs)
                 }
             } else {
                 eq_expr_value(cx, lhs, rhs)
             }
         },
     ) {
         span_lint_and_note(
             cx,
             IFS_SAME_COND,
             j.span,
             "this `if` has the same condition as a previous `if`",
             Some(i.span),
             "same as this",
         );
     }
 }

 /// Implementation of `SAME_FUNCTIONS_IN_IF_CONDITION`.
 fn lint_same_fns_in_if_cond(cx: &LateContext<'_>, conds: &[&Expr<'_>]) {
     let eq: &dyn Fn(&&Expr<'_>, &&Expr<'_>) -> bool = &|&lhs, &rhs| -> bool {
         // Do not lint if any expr originates from a macro
         if lhs.span.from_expansion() || rhs.span.from_expansion() {
             return false;
         }
         // Do not spawn warning if `IFS_SAME_COND` already produced it.
         if eq_expr_value(cx, lhs, rhs) {
             return false;
         }
         SpanlessEq::new(cx).eq_expr(lhs, rhs)
     };

     for (i, j) in search_same(conds, |e| hash_expr(cx, e), eq) {
         span_lint_and_note(
             cx,
             SAME_FUNCTIONS_IN_IF_CONDITION,
             j.span,
             "this `if` has the same function call as a previous `if`",
             Some(i.span),
             "same as this",
         );
     }
 }
	use clippy_utils::diagnostics::{span_lint_and_note, span_lint_and_then};
	use clippy_utils::source::{first_line_of_span, indent_of, reindent_multiline, snippet, snippet_opt};
	use clippy_utils::ty::{is_interior_mut_ty, needs_ordered_drop};
	use clippy_utils::visitors::for_each_expr;
	use clippy_utils::{
	capture_local_usage, def_path_def_ids, eq_expr_value, find_binding_init, get_enclosing_block, hash_expr, hash_stmt,
	if_sequence, is_else_clause, is_lint_allowed, path_to_local, search_same, ContainsName, HirEqInterExpr, SpanlessEq,
	};
	use core::iter;
	use core::ops::ControlFlow;
	use rustc_errors::Applicability;
	use rustc_hir::def_id::DefIdSet;
	use rustc_hir::{intravisit, BinOpKind, Block, Expr, ExprKind, HirId, HirIdSet, Stmt, StmtKind};
	use rustc_lint::{LateContext, LateLintPass};
	use rustc_session::impl_lint_pass;
	use rustc_span::hygiene::walk_chain;
	use rustc_span::source_map::SourceMap;
	use rustc_span::{BytePos, Span, Symbol};
	use std::borrow::Cow;

	declare_clippy_lint! {
	/// ### What it does
	/// Checks for consecutive `if`s with the same condition.
	///
	/// ### Why is this bad?
	/// This is probably a copy & paste error.
	///
	/// ### Example
	/// ```ignore
	/// if a == b {
	/// …
	/// } else if a == b {
	/// …
	/// }
	/// ```
	///
	/// Note that this lint ignores all conditions with a function call as it could
	/// have side effects:
	///
	/// ```ignore
	/// if foo() {
	/// …
	/// } else if foo() { // not linted
	/// …
	/// }
	/// ```
	#[clippy::version = "pre 1.29.0"]
	pub IFS_SAME_COND,
	correctness,
	"consecutive `if`s with the same condition"
	}

	declare_clippy_lint! {
	/// ### What it does
	/// Checks for consecutive `if`s with the same function call.
	///
	/// ### Why is this bad?
	/// This is probably a copy & paste error.
	/// Despite the fact that function can have side effects and `if` works as
	/// intended, such an approach is implicit and can be considered a "code smell".
	///
	/// ### Example
	/// ```ignore
	/// if foo() == bar {
	/// …
	/// } else if foo() == bar {
	/// …
	/// }
	/// ```
	///
	/// This probably should be:
	/// ```ignore
	/// if foo() == bar {
	/// …
	/// } else if foo() == baz {
	/// …
	/// }
	/// ```
	///
	/// or if the original code was not a typo and called function mutates a state,
	/// consider move the mutation out of the `if` condition to avoid similarity to
	/// a copy & paste error:
	///
	/// ```ignore
	/// let first = foo();
	/// if first == bar {
	/// …
	/// } else {
	/// let second = foo();
	/// if second == bar {
	/// …
	/// }
	/// }
	/// ```
	#[clippy::version = "1.41.0"]
	pub SAME_FUNCTIONS_IN_IF_CONDITION,
	pedantic,
	"consecutive `if`s with the same function call"
	}

	declare_clippy_lint! {
	/// ### What it does
	/// Checks for `if/else` with the same body as the then part
	/// and the else part.
	///
	/// ### Why is this bad?
	/// This is probably a copy & paste error.
	///
	/// ### Example
	/// ```ignore
	/// let foo = if … {
	/// 42
	/// } else {
	/// 42
	/// };
	/// ```
	#[clippy::version = "pre 1.29.0"]
	pub IF_SAME_THEN_ELSE,
	style,
	"`if` with the same `then` and `else` blocks"
	}

	declare_clippy_lint! {
	/// ### What it does
	/// Checks if the `if` and `else` block contain shared code that can be
	/// moved out of the blocks.
	///
	/// ### Why is this bad?
	/// Duplicate code is less maintainable.
	///
	/// ### Known problems
	/// * The lint doesn't check if the moved expressions modify values that are being used in
	/// the if condition. The suggestion can in that case modify the behavior of the program.
	/// See [rust-clippy#7452](https://github.com/rust-lang/rust-clippy/issues/7452)
	///
	/// ### Example
	/// ```ignore
	/// let foo = if … {
	/// println!("Hello World");
	/// 13
	/// } else {
	/// println!("Hello World");
	/// 42
	/// };
	/// ```
	///
	/// Use instead:
	/// ```ignore
	/// println!("Hello World");
	/// let foo = if … {
	/// 13
	/// } else {
	/// 42
	/// };
	/// ```
	#[clippy::version = "1.53.0"]
	pub BRANCHES_SHARING_CODE,
	nursery,
	"`if` statement with shared code in all blocks"
	}

	pub struct CopyAndPaste {
	ignore_interior_mutability: Vec<String>,
	ignored_ty_ids: DefIdSet,
	}

	impl CopyAndPaste {
	pub fn new(ignore_interior_mutability: Vec<String>) -> Self {
	Self {
	ignore_interior_mutability,
	ignored_ty_ids: DefIdSet::new(),
	}
	}
	}

	impl_lint_pass!(CopyAndPaste => [
	IFS_SAME_COND,
	SAME_FUNCTIONS_IN_IF_CONDITION,
	IF_SAME_THEN_ELSE,
	BRANCHES_SHARING_CODE
	]);

	impl<'tcx> LateLintPass<'tcx> for CopyAndPaste {
	fn check_crate(&mut self, cx: &LateContext<'tcx>) {
	for ignored_ty in &self.ignore_interior_mutability {
	let path: Vec<&str> = ignored_ty.split("::").collect();
	for id in def_path_def_ids(cx, path.as_slice()) {
	self.ignored_ty_ids.insert(id);
	}
	}
	}
	fn check_expr(&mut self, cx: &LateContext<'tcx>, expr: &'tcx Expr<'_>) {
	if !expr.span.from_expansion() && matches!(expr.kind, ExprKind::If(..)) && !is_else_clause(cx.tcx, expr) {
	let (conds, blocks) = if_sequence(expr);
	lint_same_cond(cx, &conds, &self.ignored_ty_ids);
	lint_same_fns_in_if_cond(cx, &conds);
	let all_same =
	!is_lint_allowed(cx, IF_SAME_THEN_ELSE, expr.hir_id) && lint_if_same_then_else(cx, &conds, &blocks);
	if !all_same && conds.len() != blocks.len() {
	lint_branches_sharing_code(cx, &conds, &blocks, expr);
	}
	}
	}
	}

	/// Checks if the given expression is a let chain.
	fn contains_let(e: &Expr<'_>) -> bool {
	match e.kind {
	ExprKind::Let(..) => true,
	ExprKind::Binary(op, lhs, rhs) if op.node == BinOpKind::And => {
	matches!(lhs.kind, ExprKind::Let(..)) \|\| contains_let(rhs)
	},
	_ => false,
	}
	}

	fn lint_if_same_then_else(cx: &LateContext<'_>, conds: &[&Expr<'_>], blocks: &[&Block<'_>]) -> bool {
	let mut eq = SpanlessEq::new(cx);
	blocks
	.array_windows::<2>()
	.enumerate()
	.fold(true, \|all_eq, (i, &[lhs, rhs])\| {
	if eq.eq_block(lhs, rhs) && !contains_let(conds[i]) && conds.get(i + 1).map_or(true, \|e\| !contains_let(e)) {
	span_lint_and_note(
	cx,
	IF_SAME_THEN_ELSE,
	lhs.span,
	"this `if` has identical blocks",
	Some(rhs.span),
	"same as this",
	);
	all_eq
	} else {
	false
	}
	})
	}

	fn lint_branches_sharing_code<'tcx>(
	cx: &LateContext<'tcx>,
	conds: &[&'tcx Expr<'_>],
	blocks: &[&'tcx Block<'_>],
	expr: &'tcx Expr<'_>,
	) {
	// We only lint ifs with multiple blocks
	let &[first_block, ref blocks @ ..] = blocks else {
	return;
	};
	let &[.., last_block] = blocks else {
	return;
	};

	let res = scan_block_for_eq(cx, conds, first_block, blocks);
	let sm = cx.tcx.sess.source_map();
	let start_suggestion = res.start_span(first_block, sm).map(\|span\| {
	let first_line_span = first_line_of_span(cx, expr.span);
	let replace_span = first_line_span.with_hi(span.hi());
	let cond_span = first_line_span.until(first_block.span);
	let cond_snippet = reindent_multiline(snippet(cx, cond_span, "_"), false, None);
	let cond_indent = indent_of(cx, cond_span);
	let moved_snippet = reindent_multiline(snippet(cx, span, "_"), true, None);
	let suggestion = moved_snippet.to_string() + "\n" + &cond_snippet + "{";
	let suggestion = reindent_multiline(Cow::Borrowed(&suggestion), true, cond_indent);
	(replace_span, suggestion.to_string())
	});
	let end_suggestion = res.end_span(last_block, sm).map(\|span\| {
	let moved_snipped = reindent_multiline(snippet(cx, span, "_"), true, None);
	let indent = indent_of(cx, expr.span.shrink_to_hi());
	let suggestion = "}\n".to_string() + &moved_snipped;
	let suggestion = reindent_multiline(Cow::Borrowed(&suggestion), true, indent);

	let span = span.with_hi(last_block.span.hi());
	// Improve formatting if the inner block has indention (i.e. normal Rust formatting)
	let test_span = Span::new(span.lo() - BytePos(4), span.lo(), span.ctxt(), span.parent());
	let span = if snippet_opt(cx, test_span).map_or(false, \|snip\| snip == " ") {
	span.with_lo(test_span.lo())
	} else {
	span
	};
	(span, suggestion.to_string())
	});

	let (span, msg, end_span) = match (&start_suggestion, &end_suggestion) {
	(&Some((span, _)), &Some((end_span, _))) => (
	span,
	"all if blocks contain the same code at both the start and the end",
	Some(end_span),
	),
	(&Some((span, _)), None) => (span, "all if blocks contain the same code at the start", None),
	(None, &Some((span, _))) => (span, "all if blocks contain the same code at the end", None),
	(None, None) => return,
	};
	span_lint_and_then(cx, BRANCHES_SHARING_CODE, span, msg, \|diag\| {
	if let Some(span) = end_span {
	diag.span_note(span, "this code is shared at the end");
	}
	if let Some((span, sugg)) = start_suggestion {
	diag.span_suggestion(
	span,
	"consider moving these statements before the if",
	sugg,
	Applicability::Unspecified,
	);
	}
	if let Some((span, sugg)) = end_suggestion {
	diag.span_suggestion(
	span,
	"consider moving these statements after the if",
	sugg,
	Applicability::Unspecified,
	);
	if !cx.typeck_results().expr_ty(expr).is_unit() {
	diag.note("the end suggestion probably needs some adjustments to use the expression result correctly");
	}
	}
	if check_for_warn_of_moved_symbol(cx, &res.moved_locals, expr) {
	diag.warn("some moved values might need to be renamed to avoid wrong references");
	}
	});
	}

	struct BlockEq {
	/// The end of the range of equal stmts at the start.
	start_end_eq: usize,
	/// The start of the range of equal stmts at the end.
	end_begin_eq: Option<usize>,
	/// The name and id of every local which can be moved at the beginning and the end.
	moved_locals: Vec<(HirId, Symbol)>,
	}
	impl BlockEq {
	fn start_span(&self, b: &Block<'_>, sm: &SourceMap) -> Option<Span> {
	match &b.stmts[..self.start_end_eq] {
	[first, .., last] => Some(sm.stmt_span(first.span, b.span).to(sm.stmt_span(last.span, b.span))),
	[s] => Some(sm.stmt_span(s.span, b.span)),
	[] => None,
	}
	}

	fn end_span(&self, b: &Block<'_>, sm: &SourceMap) -> Option<Span> {
	match (&b.stmts[b.stmts.len() - self.end_begin_eq?..], b.expr) {
	([first, .., last], None) => Some(sm.stmt_span(first.span, b.span).to(sm.stmt_span(last.span, b.span))),
	([first, ..], Some(last)) => Some(sm.stmt_span(first.span, b.span).to(sm.stmt_span(last.span, b.span))),
	([s], None) => Some(sm.stmt_span(s.span, b.span)),
	([], Some(e)) => Some(walk_chain(e.span, b.span.ctxt())),
	([], None) => None,
	}
	}
	}

	/// If the statement is a local, checks if the bound names match the expected list of names.
	fn eq_binding_names(s: &Stmt<'_>, names: &[(HirId, Symbol)]) -> bool {
	if let StmtKind::Let(l) = s.kind {
	let mut i = 0usize;
	let mut res = true;
	l.pat.each_binding_or_first(&mut \|_, _, _, name\| {
	if names.get(i).map_or(false, \|&(_, n)\| n == name.name) {
	i += 1;
	} else {
	res = false;
	}
	});
	res && i == names.len()
	} else {
	false
	}
	}

	/// Checks if the statement modifies or moves any of the given locals.
	fn modifies_any_local<'tcx>(cx: &LateContext<'tcx>, s: &'tcx Stmt<'_>, locals: &HirIdSet) -> bool {
	for_each_expr(s, \|e\| {
	if let Some(id) = path_to_local(e)
	&& locals.contains(&id)
	&& !capture_local_usage(cx, e).is_imm_ref()
	{
	ControlFlow::Break(())
	} else {
	ControlFlow::Continue(())
	}
	})
	.is_some()
	}

	/// Checks if the given statement should be considered equal to the statement in the same position
	/// for each block.
	fn eq_stmts(
	stmt: &Stmt<'_>,
	blocks: &[&Block<'_>],
	get_stmt: impl for<'a> Fn(&'a Block<'a>) -> Option<&'a Stmt<'a>>,
	eq: &mut HirEqInterExpr<'_, '_, '_>,
	moved_bindings: &mut Vec<(HirId, Symbol)>,
	) -> bool {
	(if let StmtKind::Let(l) = stmt.kind {
	let old_count = moved_bindings.len();
	l.pat.each_binding_or_first(&mut \|_, id, _, name\| {
	moved_bindings.push((id, name.name));
	});
	let new_bindings = &moved_bindings[old_count..];
	blocks
	.iter()
	.all(\|b\| get_stmt(b).map_or(false, \|s\| eq_binding_names(s, new_bindings)))
	} else {
	true
	}) && blocks
	.iter()
	.all(\|b\| get_stmt(b).map_or(false, \|s\| eq.eq_stmt(s, stmt)))
	}

	#[expect(clippy::too_many_lines)]
	fn scan_block_for_eq<'tcx>(
	cx: &LateContext<'tcx>,
	conds: &[&'tcx Expr<'_>],
	block: &'tcx Block<'_>,
	blocks: &[&'tcx Block<'_>],
	) -> BlockEq {
	let mut eq = SpanlessEq::new(cx);
	let mut eq = eq.inter_expr();
	let mut moved_locals = Vec::new();

	let mut cond_locals = HirIdSet::default();
	for &cond in conds {
	let _: Option<!> = for_each_expr(cond, \|e\| {
	if let Some(id) = path_to_local(e) {
	cond_locals.insert(id);
	}
	ControlFlow::Continue(())
	});
	}

	let mut local_needs_ordered_drop = false;
	let start_end_eq = block
	.stmts
	.iter()
	.enumerate()
	.find(\|&(i, stmt)\| {
	if let StmtKind::Let(l) = stmt.kind
	&& needs_ordered_drop(cx, cx.typeck_results().node_type(l.hir_id))
	{
	local_needs_ordered_drop = true;
	return true;
	}
	modifies_any_local(cx, stmt, &cond_locals)
	\|\| !eq_stmts(stmt, blocks, \|b\| b.stmts.get(i), &mut eq, &mut moved_locals)
	})
	.map_or(block.stmts.len(), \|(i, _)\| i);

	if local_needs_ordered_drop {
	return BlockEq {
	start_end_eq,
	end_begin_eq: None,
	moved_locals,
	};
	}

	// Walk backwards through the final expression/statements so long as their hashes are equal. Note
	// `SpanlessHash` treats all local references as equal allowing locals declared earlier in the block
	// to match those in other blocks. e.g. If each block ends with the following the hash value will be
	// the same even though each `x` binding will have a different `HirId`:
	// let x = foo();
	// x + 50
	let expr_hash_eq = if let Some(e) = block.expr {
	let hash = hash_expr(cx, e);
	blocks
	.iter()
	.all(\|b\| b.expr.map_or(false, \|e\| hash_expr(cx, e) == hash))
	} else {
	blocks.iter().all(\|b\| b.expr.is_none())
	};
	if !expr_hash_eq {
	return BlockEq {
	start_end_eq,
	end_begin_eq: None,
	moved_locals,
	};
	}
	let end_search_start = block.stmts[start_end_eq..]
	.iter()
	.rev()
	.enumerate()
	.find(\|&(offset, stmt)\| {
	let hash = hash_stmt(cx, stmt);
	blocks.iter().any(\|b\| {
	b.stmts
	// the bounds check will catch the underflow
	.get(b.stmts.len().wrapping_sub(offset + 1))
	.map_or(true, \|s\| hash != hash_stmt(cx, s))
	})
	})
	.map_or(block.stmts.len() - start_end_eq, \|(i, _)\| i);

	let moved_locals_at_start = moved_locals.len();
	let mut i = end_search_start;
	let end_begin_eq = block.stmts[block.stmts.len() - end_search_start..]
	.iter()
	.zip(iter::repeat_with(move \|\| {
	let x = i;
	i -= 1;
	x
	}))
	.fold(end_search_start, \|init, (stmt, offset)\| {
	if eq_stmts(
	stmt,
	blocks,
	\|b\| b.stmts.get(b.stmts.len() - offset),
	&mut eq,
	&mut moved_locals,
	) {
	init
	} else {
	// Clear out all locals seen at the end so far. None of them can be moved.
	let stmts = &blocks[0].stmts;
	for stmt in &stmts[stmts.len() - init..=stmts.len() - offset] {
	if let StmtKind::Let(l) = stmt.kind {
	l.pat.each_binding_or_first(&mut \|_, id, _, _\| {
	// FIXME(rust/#120456) - is `swap_remove` correct?
	eq.locals.swap_remove(&id);
	});
	}
	}
	moved_locals.truncate(moved_locals_at_start);
	offset - 1
	}
	});
	if let Some(e) = block.expr {
	for block in blocks {
	if block.expr.map_or(false, \|expr\| !eq.eq_expr(expr, e)) {
	moved_locals.truncate(moved_locals_at_start);
	return BlockEq {
	start_end_eq,
	end_begin_eq: None,
	moved_locals,
	};
	}
	}
	}

	BlockEq {
	start_end_eq,
	end_begin_eq: Some(end_begin_eq),
	moved_locals,
	}
	}

	fn check_for_warn_of_moved_symbol(cx: &LateContext<'_>, symbols: &[(HirId, Symbol)], if_expr: &Expr<'_>) -> bool {
	get_enclosing_block(cx, if_expr.hir_id).map_or(false, \|block\| {
	let ignore_span = block.span.shrink_to_lo().to(if_expr.span);

	symbols
	.iter()
	.filter(\|&&(_, name)\| !name.as_str().starts_with('_'))
	.any(\|&(_, name)\| {
	let mut walker = ContainsName {
	name,
	result: false,
	cx,
	};

	// Scan block
	block
	.stmts
	.iter()
	.filter(\|stmt\| !ignore_span.overlaps(stmt.span))
	.for_each(\|stmt\| intravisit::walk_stmt(&mut walker, stmt));

	if let Some(expr) = block.expr {
	intravisit::walk_expr(&mut walker, expr);
	}

	walker.result
	})
	})
	}

	fn method_caller_is_mutable(cx: &LateContext<'_>, caller_expr: &Expr<'_>, ignored_ty_ids: &DefIdSet) -> bool {
	let caller_ty = cx.typeck_results().expr_ty(caller_expr);
	// Check if given type has inner mutability and was not set to ignored by the configuration
	let is_inner_mut_ty = is_interior_mut_ty(cx, caller_ty)
	&& !matches!(caller_ty.ty_adt_def(), Some(adt) if ignored_ty_ids.contains(&adt.did()));

	is_inner_mut_ty
	\|\| caller_ty.is_mutable_ptr()
	// `find_binding_init` will return the binding iff its not mutable
	\|\| path_to_local(caller_expr)
	.and_then(\|hid\| find_binding_init(cx, hid))
	.is_none()
	}

	/// Implementation of `IFS_SAME_COND`.
	fn lint_same_cond(cx: &LateContext<'_>, conds: &[&Expr<'_>], ignored_ty_ids: &DefIdSet) {
	for (i, j) in search_same(
	conds,
	\|e\| hash_expr(cx, e),
	\|lhs, rhs\| {
	// Ignore eq_expr side effects iff one of the expression kind is a method call
	// and the caller is not a mutable, including inner mutable type.
	if let ExprKind::MethodCall(_, caller, _, _) = lhs.kind {
	if method_caller_is_mutable(cx, caller, ignored_ty_ids) {
	false
	} else {
	SpanlessEq::new(cx).eq_expr(lhs, rhs)
	}
	} else {
	eq_expr_value(cx, lhs, rhs)
	}
	},
	) {
	span_lint_and_note(
	cx,
	IFS_SAME_COND,
	j.span,
	"this `if` has the same condition as a previous `if`",
	Some(i.span),
	"same as this",
	);
	}
	}

	/// Implementation of `SAME_FUNCTIONS_IN_IF_CONDITION`.
	fn lint_same_fns_in_if_cond(cx: &LateContext<'_>, conds: &[&Expr<'_>]) {
	let eq: &dyn Fn(&&Expr<'_>, &&Expr<'_>) -> bool = &\|&lhs, &rhs\| -> bool {
	// Do not lint if any expr originates from a macro
	if lhs.span.from_expansion() \|\| rhs.span.from_expansion() {
	return false;
	}
	// Do not spawn warning if `IFS_SAME_COND` already produced it.
	if eq_expr_value(cx, lhs, rhs) {
	return false;
	}
	SpanlessEq::new(cx).eq_expr(lhs, rhs)
	};

	for (i, j) in search_same(conds, \|e\| hash_expr(cx, e), eq) {
	span_lint_and_note(
	cx,
	SAME_FUNCTIONS_IN_IF_CONDITION,
	j.span,
	"this `if` has the same function call as a previous `if`",
	Some(i.span),
	"same as this",
	);
	}
	}