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

 //! Checks for continue statements in loops that are redundant.
 //!
 //! For example, the lint would catch
 //!
 //! ```rust
 //! let mut a = 1;
 //! let x = true;
 //!
 //! while a < 5 {
 //!     a = 6;
 //!     if x {
 //!         // ...
 //!     } else {
 //!         continue;
 //!     }
 //!     println!("Hello, world");
 //! }
 //! ```
 //!
 //! And suggest something like this:
 //!
 //! ```rust
 //! let mut a = 1;
 //! let x = true;
 //!
 //! while a < 5 {
 //!     a = 6;
 //!     if x {
 //!         // ...
 //!         println!("Hello, world");
 //!     }
 //! }
 //! ```
 //!
 //! This lint is **warn** by default.
 use rustc_ast::ast;
 use rustc_lint::{EarlyContext, EarlyLintPass};
 use rustc_session::{declare_lint_pass, declare_tool_lint};
 use rustc_span::source_map::{original_sp, DUMMY_SP};
 use rustc_span::Span;

 use crate::utils::{indent_of, snippet, snippet_block, span_lint_and_help};

 declare_clippy_lint! {
     /// **What it does:** The lint checks for `if`-statements appearing in loops
     /// that contain a `continue` statement in either their main blocks or their
     /// `else`-blocks, when omitting the `else`-block possibly with some
     /// rearrangement of code can make the code easier to understand.
     ///
     /// **Why is this bad?** Having explicit `else` blocks for `if` statements
     /// containing `continue` in their THEN branch adds unnecessary branching and
     /// nesting to the code. Having an else block containing just `continue` can
     /// also be better written by grouping the statements following the whole `if`
     /// statement within the THEN block and omitting the else block completely.
     ///
     /// **Known problems:** None
     ///
     /// **Example:**
     /// ```rust
     /// # fn condition() -> bool { false }
     /// # fn update_condition() {}
     /// # let x = false;
     /// while condition() {
     ///     update_condition();
     ///     if x {
     ///         // ...
     ///     } else {
     ///         continue;
     ///     }
     ///     println!("Hello, world");
     /// }
     /// ```
     ///
     /// Could be rewritten as
     ///
     /// ```rust
     /// # fn condition() -> bool { false }
     /// # fn update_condition() {}
     /// # let x = false;
     /// while condition() {
     ///     update_condition();
     ///     if x {
     ///         // ...
     ///         println!("Hello, world");
     ///     }
     /// }
     /// ```
     ///
     /// As another example, the following code
     ///
     /// ```rust
     /// # fn waiting() -> bool { false }
     /// loop {
     ///     if waiting() {
     ///         continue;
     ///     } else {
     ///         // Do something useful
     ///     }
     ///     # break;
     /// }
     /// ```
     /// Could be rewritten as
     ///
     /// ```rust
     /// # fn waiting() -> bool { false }
     /// loop {
     ///     if waiting() {
     ///         continue;
     ///     }
     ///     // Do something useful
     ///     # break;
     /// }
     /// ```
     pub NEEDLESS_CONTINUE,
     pedantic,
     "`continue` statements that can be replaced by a rearrangement of code"
 }

 declare_lint_pass!(NeedlessContinue => [NEEDLESS_CONTINUE]);

 impl EarlyLintPass for NeedlessContinue {
     fn check_expr(&mut self, cx: &EarlyContext<'_>, expr: &ast::Expr) {
         if !expr.span.from_expansion() {
             check_and_warn(cx, expr);
         }
     }
 }

 /* This lint has to mainly deal with two cases of needless continue
  * statements. */
 // Case 1 [Continue inside else block]:
 //
 //     loop {
 //         // region A
 //         if cond {
 //             // region B
 //         } else {
 //             continue;
 //         }
 //         // region C
 //     }
 //
 // This code can better be written as follows:
 //
 //     loop {
 //         // region A
 //         if cond {
 //             // region B
 //             // region C
 //         }
 //     }
 //
 // Case 2 [Continue inside then block]:
 //
 //     loop {
 //       // region A
 //       if cond {
 //           continue;
 //           // potentially more code here.
 //       } else {
 //           // region B
 //       }
 //       // region C
 //     }
 //
 //
 // This snippet can be refactored to:
 //
 //     loop {
 //       // region A
 //       if !cond {
 //           // region B
 //           // region C
 //       }
 //     }
 //

 /// Given an expression, returns true if either of the following is true
 ///
 /// - The expression is a `continue` node.
 /// - The expression node is a block with the first statement being a
 /// `continue`.
 fn needless_continue_in_else(else_expr: &ast::Expr, label: Option<&ast::Label>) -> bool {
     match else_expr.kind {
         ast::ExprKind::Block(ref else_block, _) => is_first_block_stmt_continue(else_block, label),
         ast::ExprKind::Continue(l) => compare_labels(label, l.as_ref()),
         _ => false,
     }
 }

 fn is_first_block_stmt_continue(block: &ast::Block, label: Option<&ast::Label>) -> bool {
     block.stmts.get(0).map_or(false, |stmt| match stmt.kind {
         ast::StmtKind::Semi(ref e) | ast::StmtKind::Expr(ref e) => {
             if let ast::ExprKind::Continue(ref l) = e.kind {
                 compare_labels(label, l.as_ref())
             } else {
                 false
             }
         },
         _ => false,
     })
 }

 /// If the `continue` has a label, check it matches the label of the loop.
 fn compare_labels(loop_label: Option<&ast::Label>, continue_label: Option<&ast::Label>) -> bool {
     match (loop_label, continue_label) {
         // `loop { continue; }` or `'a loop { continue; }`
         (_, None) => true,
         // `loop { continue 'a; }`
         (None, _) => false,
         // `'a loop { continue 'a; }` or `'a loop { continue 'b; }`
         (Some(x), Some(y)) => x.ident == y.ident,
     }
 }

 /// If `expr` is a loop expression (while/while let/for/loop), calls `func` with
 /// the AST object representing the loop block of `expr`.
 fn with_loop_block<F>(expr: &ast::Expr, mut func: F)
 where
     F: FnMut(&ast::Block, Option<&ast::Label>),
 {
     if let ast::ExprKind::While(_, loop_block, label)
     | ast::ExprKind::ForLoop(_, _, loop_block, label)
     | ast::ExprKind::Loop(loop_block, label) = &expr.kind
     {
         func(loop_block, label.as_ref());
     }
 }

 /// If `stmt` is an if expression node with an `else` branch, calls func with
 /// the
 /// following:
 ///
 /// - The `if` expression itself,
 /// - The `if` condition expression,
 /// - The `then` block, and
 /// - The `else` expression.
 fn with_if_expr<F>(stmt: &ast::Stmt, mut func: F)
 where
     F: FnMut(&ast::Expr, &ast::Expr, &ast::Block, &ast::Expr),
 {
     match stmt.kind {
         ast::StmtKind::Semi(ref e) | ast::StmtKind::Expr(ref e) => {
             if let ast::ExprKind::If(ref cond, ref if_block, Some(ref else_expr)) = e.kind {
                 func(e, cond, if_block, else_expr);
             }
         },
         _ => {},
     }
 }

 /// A type to distinguish between the two distinct cases this lint handles.
 #[derive(Copy, Clone, Debug)]
 enum LintType {
     ContinueInsideElseBlock,
     ContinueInsideThenBlock,
 }

 /// Data we pass around for construction of help messages.
 struct LintData<'a> {
     /// The `if` expression encountered in the above loop.
     if_expr: &'a ast::Expr,
     /// The condition expression for the above `if`.
     if_cond: &'a ast::Expr,
     /// The `then` block of the `if` statement.
     if_block: &'a ast::Block,
     /// The `else` block of the `if` statement.
     /// Note that we only work with `if` exprs that have an `else` branch.
     else_expr: &'a ast::Expr,
     /// The 0-based index of the `if` statement in the containing loop block.
     stmt_idx: usize,
     /// The statements of the loop block.
     block_stmts: &'a [ast::Stmt],
 }

 const MSG_REDUNDANT_ELSE_BLOCK: &str = "this `else` block is redundant";

 const MSG_ELSE_BLOCK_NOT_NEEDED: &str = "there is no need for an explicit `else` block for this `if` \
                                          expression";

 const DROP_ELSE_BLOCK_AND_MERGE_MSG: &str = "consider dropping the `else` clause and merging the code that \
                                              follows (in the loop) with the `if` block";

 const DROP_ELSE_BLOCK_MSG: &str = "consider dropping the `else` clause";

 fn emit_warning<'a>(cx: &EarlyContext<'_>, data: &'a LintData<'_>, header: &str, typ: LintType) {
     // snip    is the whole *help* message that appears after the warning.
     // message is the warning message.
     // expr    is the expression which the lint warning message refers to.
     let (snip, message, expr) = match typ {
         LintType::ContinueInsideElseBlock => (
             suggestion_snippet_for_continue_inside_else(cx, data),
             MSG_REDUNDANT_ELSE_BLOCK,
             data.else_expr,
         ),
         LintType::ContinueInsideThenBlock => (
             suggestion_snippet_for_continue_inside_if(cx, data),
             MSG_ELSE_BLOCK_NOT_NEEDED,
             data.if_expr,
         ),
     };
     span_lint_and_help(
         cx,
         NEEDLESS_CONTINUE,
         expr.span,
         message,
         &format!("{}\n{}", header, snip),
     );
 }

 fn suggestion_snippet_for_continue_inside_if<'a>(cx: &EarlyContext<'_>, data: &'a LintData<'_>) -> String {
     let cond_code = snippet(cx, data.if_cond.span, "..");

     let continue_code = snippet_block(cx, data.if_block.span, "..", Some(data.if_expr.span));

     let else_code = snippet_block(cx, data.else_expr.span, "..", Some(data.if_expr.span));

     let indent_if = indent_of(cx, data.if_expr.span).unwrap_or(0);
     format!(
         "{indent}if {} {}\n{indent}{}",
         cond_code,
         continue_code,
         else_code,
         indent = " ".repeat(indent_if),
     )
 }

 fn suggestion_snippet_for_continue_inside_else<'a>(cx: &EarlyContext<'_>, data: &'a LintData<'_>) -> String {
     let cond_code = snippet(cx, data.if_cond.span, "..");

     // Region B
     let block_code = erode_from_back(&snippet_block(cx, data.if_block.span, "..", Some(data.if_expr.span)));

     // Region C
     // These is the code in the loop block that follows the if/else construction
     // we are complaining about. We want to pull all of this code into the
     // `then` block of the `if` statement.
     let indent = span_of_first_expr_in_block(data.if_block)
         .and_then(|span| indent_of(cx, span))
         .unwrap_or(0);
     let to_annex = data.block_stmts[data.stmt_idx + 1..]
         .iter()
         .map(|stmt| original_sp(stmt.span, DUMMY_SP))
         .map(|span| {
             let snip = snippet_block(cx, span, "..", None).into_owned();
             snip.lines()
                 .map(|line| format!("{}{}", " ".repeat(indent), line))
                 .collect::<Vec<_>>()
                 .join("\n")
         })
         .collect::<Vec<_>>()
         .join("\n");

     let indent_if = indent_of(cx, data.if_expr.span).unwrap_or(0);
     format!(
         "{indent_if}if {} {}\n{indent}// merged code follows:\n{}\n{indent_if}}}",
         cond_code,
         block_code,
         to_annex,
         indent = " ".repeat(indent),
         indent_if = " ".repeat(indent_if),
     )
 }

 fn check_and_warn<'a>(cx: &EarlyContext<'_>, expr: &'a ast::Expr) {
     with_loop_block(expr, |loop_block, label| {
         for (i, stmt) in loop_block.stmts.iter().enumerate() {
             with_if_expr(stmt, |if_expr, cond, then_block, else_expr| {
                 let data = &LintData {
                     stmt_idx: i,
                     if_expr,
                     if_cond: cond,
                     if_block: then_block,
                     else_expr,
                     block_stmts: &loop_block.stmts,
                 };
                 if needless_continue_in_else(else_expr, label) {
                     emit_warning(
                         cx,
                         data,
                         DROP_ELSE_BLOCK_AND_MERGE_MSG,
                         LintType::ContinueInsideElseBlock,
                     );
                 } else if is_first_block_stmt_continue(then_block, label) {
                     emit_warning(cx, data, DROP_ELSE_BLOCK_MSG, LintType::ContinueInsideThenBlock);
                 }
             });
         }
     });
 }

 /// Eats at `s` from the end till a closing brace `}` is encountered, and then continues eating
 /// till a non-whitespace character is found.  e.g., the string. If no closing `}` is present, the
 /// string will be preserved.
 ///
 /// ```rust
 /// {
 ///     let x = 5;
 /// }
 /// ```
 ///
 /// is transformed to
 ///
 /// ```ignore
 ///     {
 ///         let x = 5;
 /// ```
 #[must_use]
 fn erode_from_back(s: &str) -> String {
     let mut ret = s.to_string();
     while ret.pop().map_or(false, |c| c != '}') {}
     while let Some(c) = ret.pop() {
         if !c.is_whitespace() {
             ret.push(c);
             break;
         }
     }
     if ret.is_empty() {
         s.to_string()
     } else {
         ret
     }
 }

 fn span_of_first_expr_in_block(block: &ast::Block) -> Option<Span> {
     block.stmts.iter().next().map(|stmt| stmt.span)
 }

 #[cfg(test)]
 mod test {
     use super::erode_from_back;

     #[test]
     #[rustfmt::skip]
     fn test_erode_from_back() {
         let input = "\
 {
     let x = 5;
     let y = format!(\"{}\", 42);
 }";

         let expected = "\
 {
     let x = 5;
     let y = format!(\"{}\", 42);";

         let got = erode_from_back(input);
         assert_eq!(expected, got);
     }

     #[test]
     #[rustfmt::skip]
     fn test_erode_from_back_no_brace() {
         let input = "\
 let x = 5;
 let y = something();
 ";
         let expected = input;
         let got = erode_from_back(input);
         assert_eq!(expected, got);
     }
 }
	//! Checks for continue statements in loops that are redundant.
	//!
	//! For example, the lint would catch
	//!
	//! ```rust
	//! let mut a = 1;
	//! let x = true;
	//!
	//! while a < 5 {
	//! a = 6;
	//! if x {
	//! // ...
	//! } else {
	//! continue;
	//! }
	//! println!("Hello, world");
	//! }
	//! ```
	//!
	//! And suggest something like this:
	//!
	//! ```rust
	//! let mut a = 1;
	//! let x = true;
	//!
	//! while a < 5 {
	//! a = 6;
	//! if x {
	//! // ...
	//! println!("Hello, world");
	//! }
	//! }
	//! ```
	//!
	//! This lint is warn by default.
	use rustc_ast::ast;
	use rustc_lint::{EarlyContext, EarlyLintPass};
	use rustc_session::{declare_lint_pass, declare_tool_lint};
	use rustc_span::source_map::{original_sp, DUMMY_SP};
	use rustc_span::Span;

	use crate::utils::{indent_of, snippet, snippet_block, span_lint_and_help};

	declare_clippy_lint! {
	/// What it does: The lint checks for `if`-statements appearing in loops
	/// that contain a `continue` statement in either their main blocks or their
	/// `else`-blocks, when omitting the `else`-block possibly with some
	/// rearrangement of code can make the code easier to understand.
	///
	/// Why is this bad? Having explicit `else` blocks for `if` statements
	/// containing `continue` in their THEN branch adds unnecessary branching and
	/// nesting to the code. Having an else block containing just `continue` can
	/// also be better written by grouping the statements following the whole `if`
	/// statement within the THEN block and omitting the else block completely.
	///
	/// Known problems: None
	///
	/// Example:
	/// ```rust
	/// # fn condition() -> bool { false }
	/// # fn update_condition() {}
	/// # let x = false;
	/// while condition() {
	/// update_condition();
	/// if x {
	/// // ...
	/// } else {
	/// continue;
	/// }
	/// println!("Hello, world");
	/// }
	/// ```
	///
	/// Could be rewritten as
	///
	/// ```rust
	/// # fn condition() -> bool { false }
	/// # fn update_condition() {}
	/// # let x = false;
	/// while condition() {
	/// update_condition();
	/// if x {
	/// // ...
	/// println!("Hello, world");
	/// }
	/// }
	/// ```
	///
	/// As another example, the following code
	///
	/// ```rust
	/// # fn waiting() -> bool { false }
	/// loop {
	/// if waiting() {
	/// continue;
	/// } else {
	/// // Do something useful
	/// }
	/// # break;
	/// }
	/// ```
	/// Could be rewritten as
	///
	/// ```rust
	/// # fn waiting() -> bool { false }
	/// loop {
	/// if waiting() {
	/// continue;
	/// }
	/// // Do something useful
	/// # break;
	/// }
	/// ```
	pub NEEDLESS_CONTINUE,
	pedantic,
	"`continue` statements that can be replaced by a rearrangement of code"
	}

	declare_lint_pass!(NeedlessContinue => [NEEDLESS_CONTINUE]);

	impl EarlyLintPass for NeedlessContinue {
	fn check_expr(&mut self, cx: &EarlyContext<'_>, expr: &ast::Expr) {
	if !expr.span.from_expansion() {
	check_and_warn(cx, expr);
	}
	}
	}

	/* This lint has to mainly deal with two cases of needless continue
	* statements. */
	// Case 1 [Continue inside else block]:
	//
	// loop {
	// // region A
	// if cond {
	// // region B
	// } else {
	// continue;
	// }
	// // region C
	// }
	//
	// This code can better be written as follows:
	//
	// loop {
	// // region A
	// if cond {
	// // region B
	// // region C
	// }
	// }
	//
	// Case 2 [Continue inside then block]:
	//
	// loop {
	// // region A
	// if cond {
	// continue;
	// // potentially more code here.
	// } else {
	// // region B
	// }
	// // region C
	// }
	//
	//
	// This snippet can be refactored to:
	//
	// loop {
	// // region A
	// if !cond {
	// // region B
	// // region C
	// }
	// }
	//

	/// Given an expression, returns true if either of the following is true
	///
	/// - The expression is a `continue` node.
	/// - The expression node is a block with the first statement being a
	/// `continue`.
	fn needless_continue_in_else(else_expr: &ast::Expr, label: Option<&ast::Label>) -> bool {
	match else_expr.kind {
	ast::ExprKind::Block(ref else_block, _) => is_first_block_stmt_continue(else_block, label),
	ast::ExprKind::Continue(l) => compare_labels(label, l.as_ref()),
	_ => false,
	}
	}

	fn is_first_block_stmt_continue(block: &ast::Block, label: Option<&ast::Label>) -> bool {
	block.stmts.get(0).map_or(false, \|stmt\| match stmt.kind {
	ast::StmtKind::Semi(ref e) \| ast::StmtKind::Expr(ref e) => {
	if let ast::ExprKind::Continue(ref l) = e.kind {
	compare_labels(label, l.as_ref())
	} else {
	false
	}
	},
	_ => false,
	})
	}

	/// If the `continue` has a label, check it matches the label of the loop.
	fn compare_labels(loop_label: Option<&ast::Label>, continue_label: Option<&ast::Label>) -> bool {
	match (loop_label, continue_label) {
	// `loop { continue; }` or `'a loop { continue; }`
	(_, None) => true,
	// `loop { continue 'a; }`
	(None, _) => false,
	// `'a loop { continue 'a; }` or `'a loop { continue 'b; }`
	(Some(x), Some(y)) => x.ident == y.ident,
	}
	}

	/// If `expr` is a loop expression (while/while let/for/loop), calls `func` with
	/// the AST object representing the loop block of `expr`.
	fn with_loop_block<F>(expr: &ast::Expr, mut func: F)
	where
	F: FnMut(&ast::Block, Option<&ast::Label>),
	{
	if let ast::ExprKind::While(_, loop_block, label)
	\| ast::ExprKind::ForLoop(_, _, loop_block, label)
	\| ast::ExprKind::Loop(loop_block, label) = &expr.kind
	{
	func(loop_block, label.as_ref());
	}
	}

	/// If `stmt` is an if expression node with an `else` branch, calls func with
	/// the
	/// following:
	///
	/// - The `if` expression itself,
	/// - The `if` condition expression,
	/// - The `then` block, and
	/// - The `else` expression.
	fn with_if_expr<F>(stmt: &ast::Stmt, mut func: F)
	where
	F: FnMut(&ast::Expr, &ast::Expr, &ast::Block, &ast::Expr),
	{
	match stmt.kind {
	ast::StmtKind::Semi(ref e) \| ast::StmtKind::Expr(ref e) => {
	if let ast::ExprKind::If(ref cond, ref if_block, Some(ref else_expr)) = e.kind {
	func(e, cond, if_block, else_expr);
	}
	},
	_ => {},
	}
	}

	/// A type to distinguish between the two distinct cases this lint handles.
	#[derive(Copy, Clone, Debug)]
	enum LintType {
	ContinueInsideElseBlock,
	ContinueInsideThenBlock,
	}

	/// Data we pass around for construction of help messages.
	struct LintData<'a> {
	/// The `if` expression encountered in the above loop.
	if_expr: &'a ast::Expr,
	/// The condition expression for the above `if`.
	if_cond: &'a ast::Expr,
	/// The `then` block of the `if` statement.
	if_block: &'a ast::Block,
	/// The `else` block of the `if` statement.
	/// Note that we only work with `if` exprs that have an `else` branch.
	else_expr: &'a ast::Expr,
	/// The 0-based index of the `if` statement in the containing loop block.
	stmt_idx: usize,
	/// The statements of the loop block.
	block_stmts: &'a [ast::Stmt],
	}

	const MSG_REDUNDANT_ELSE_BLOCK: &str = "this `else` block is redundant";

	const MSG_ELSE_BLOCK_NOT_NEEDED: &str = "there is no need for an explicit `else` block for this `if` \
	expression";

	const DROP_ELSE_BLOCK_AND_MERGE_MSG: &str = "consider dropping the `else` clause and merging the code that \
	follows (in the loop) with the `if` block";

	const DROP_ELSE_BLOCK_MSG: &str = "consider dropping the `else` clause";

	fn emit_warning<'a>(cx: &EarlyContext<'_>, data: &'a LintData<'_>, header: &str, typ: LintType) {
	// snip is the whole help message that appears after the warning.
	// message is the warning message.
	// expr is the expression which the lint warning message refers to.
	let (snip, message, expr) = match typ {
	LintType::ContinueInsideElseBlock => (
	suggestion_snippet_for_continue_inside_else(cx, data),
	MSG_REDUNDANT_ELSE_BLOCK,
	data.else_expr,
	),
	LintType::ContinueInsideThenBlock => (
	suggestion_snippet_for_continue_inside_if(cx, data),
	MSG_ELSE_BLOCK_NOT_NEEDED,
	data.if_expr,
	),
	};
	span_lint_and_help(
	cx,
	NEEDLESS_CONTINUE,
	expr.span,
	message,
	&format!("{}\n{}", header, snip),
	);
	}

	fn suggestion_snippet_for_continue_inside_if<'a>(cx: &EarlyContext<'_>, data: &'a LintData<'_>) -> String {
	let cond_code = snippet(cx, data.if_cond.span, "..");

	let continue_code = snippet_block(cx, data.if_block.span, "..", Some(data.if_expr.span));

	let else_code = snippet_block(cx, data.else_expr.span, "..", Some(data.if_expr.span));

	let indent_if = indent_of(cx, data.if_expr.span).unwrap_or(0);
	format!(
	"{indent}if {} {}\n{indent}{}",
	cond_code,
	continue_code,
	else_code,
	indent = " ".repeat(indent_if),
	)
	}

	fn suggestion_snippet_for_continue_inside_else<'a>(cx: &EarlyContext<'_>, data: &'a LintData<'_>) -> String {
	let cond_code = snippet(cx, data.if_cond.span, "..");

	// Region B
	let block_code = erode_from_back(&snippet_block(cx, data.if_block.span, "..", Some(data.if_expr.span)));

	// Region C
	// These is the code in the loop block that follows the if/else construction
	// we are complaining about. We want to pull all of this code into the
	// `then` block of the `if` statement.
	let indent = span_of_first_expr_in_block(data.if_block)
	.and_then(\|span\| indent_of(cx, span))
	.unwrap_or(0);
	let to_annex = data.block_stmts[data.stmt_idx + 1..]
	.iter()
	.map(\|stmt\| original_sp(stmt.span, DUMMY_SP))
	.map(\|span\| {
	let snip = snippet_block(cx, span, "..", None).into_owned();
	snip.lines()
	.map(\|line\| format!("{}{}", " ".repeat(indent), line))
	.collect::<Vec<_>>()
	.join("\n")
	})
	.collect::<Vec<_>>()
	.join("\n");

	let indent_if = indent_of(cx, data.if_expr.span).unwrap_or(0);
	format!(
	"{indent_if}if {} {}\n{indent}// merged code follows:\n{}\n{indent_if}}}",
	cond_code,
	block_code,
	to_annex,
	indent = " ".repeat(indent),
	indent_if = " ".repeat(indent_if),
	)
	}

	fn check_and_warn<'a>(cx: &EarlyContext<'_>, expr: &'a ast::Expr) {
	with_loop_block(expr, \|loop_block, label\| {
	for (i, stmt) in loop_block.stmts.iter().enumerate() {
	with_if_expr(stmt, \|if_expr, cond, then_block, else_expr\| {
	let data = &LintData {
	stmt_idx: i,
	if_expr,
	if_cond: cond,
	if_block: then_block,
	else_expr,
	block_stmts: &loop_block.stmts,
	};
	if needless_continue_in_else(else_expr, label) {
	emit_warning(
	cx,
	data,
	DROP_ELSE_BLOCK_AND_MERGE_MSG,
	LintType::ContinueInsideElseBlock,
	);
	} else if is_first_block_stmt_continue(then_block, label) {
	emit_warning(cx, data, DROP_ELSE_BLOCK_MSG, LintType::ContinueInsideThenBlock);
	}
	});
	}
	});
	}

	/// Eats at `s` from the end till a closing brace `}` is encountered, and then continues eating
	/// till a non-whitespace character is found. e.g., the string. If no closing `}` is present, the
	/// string will be preserved.
	///
	/// ```rust
	/// {
	/// let x = 5;
	/// }
	/// ```
	///
	/// is transformed to
	///
	/// ```ignore
	/// {
	/// let x = 5;
	/// ```
	#[must_use]
	fn erode_from_back(s: &str) -> String {
	let mut ret = s.to_string();
	while ret.pop().map_or(false, \|c\| c != '}') {}
	while let Some(c) = ret.pop() {
	if !c.is_whitespace() {
	ret.push(c);
	break;
	}
	}
	if ret.is_empty() {
	s.to_string()
	} else {
	ret
	}
	}

	fn span_of_first_expr_in_block(block: &ast::Block) -> Option<Span> {
	block.stmts.iter().next().map(\|stmt\| stmt.span)
	}

	#[cfg(test)]
	mod test {
	use super::erode_from_back;

	#[test]
	#[rustfmt::skip]
	fn test_erode_from_back() {
	let input = "\
	{
	let x = 5;
	let y = format!(\"{}\", 42);
	}";

	let expected = "\
	{
	let x = 5;
	let y = format!(\"{}\", 42);";

	let got = erode_from_back(input);
	assert_eq!(expected, got);
	}

	#[test]
	#[rustfmt::skip]
	fn test_erode_from_back_no_brace() {
	let input = "\
	let x = 5;
	let y = something();
	";
	let expected = input;
	let got = erode_from_back(input);
	assert_eq!(expected, got);
	}
	}