// used instead, in these cases.
*applicability = Applicability::MaybeIncorrect;
- // We arbitraily choose one side to suggest changing,
+ // We arbitrarily choose one side to suggest changing,
// since we don't have a better guess. If the user
// ends up duplicating a clause, the `logic_bug` lint
// should catch it.
}
fn extract_related_binops(kind: &ExprKind) -> Option<Vec<BinaryOp<'_>>> {
- append_opt_vecs(chained_binops(kind), if_statment_binops(kind))
+ append_opt_vecs(chained_binops(kind), if_statement_binops(kind))
}
-fn if_statment_binops(kind: &ExprKind) -> Option<Vec<BinaryOp<'_>>> {
+fn if_statement_binops(kind: &ExprKind) -> Option<Vec<BinaryOp<'_>>> {
match kind {
ExprKind::If(ref condition, _, _) => chained_binops(&condition.kind),
- ExprKind::Paren(ref e) => if_statment_binops(&e.kind),
+ ExprKind::Paren(ref e) => if_statement_binops(&e.kind),
ExprKind::Block(ref block, _) => {
let mut output = None;
for stmt in &block.stmts {
match stmt.kind {
StmtKind::Expr(ref e) | StmtKind::Semi(ref e) => {
- output = append_opt_vecs(output, if_statment_binops(&e.kind));
+ output = append_opt_vecs(output, if_statement_binops(&e.kind));
},
_ => {},
}
// IdentIter, then the output of this function will be almost always be correct
// in practice.
//
- // If it turns out that problematic cases are more prelavent than we assume,
+ // If it turns out that problematic cases are more prevalent than we assume,
// then we should be able to change this function to do the correct traversal,
// without needing to change the rest of the code.
| (Await(_), Await(_))
| (Async(_, _, _), Async(_, _, _))
| (Block(_, _), Block(_, _))
- | (Closure(_, _, _, _, _, _), Closure(_, _, _, _, _, _))
+ | (Closure(_, _, _, _, _, _, _), Closure(_, _, _, _, _, _, _))
| (Match(_, _), Match(_, _))
| (Loop(_, _), Loop(_, _))
| (ForLoop(_, _, _, _), ForLoop(_, _, _, _))
| (Unary(_, _), Unary(_, _))
| (Binary(_, _, _), Binary(_, _, _))
| (Tup(_), Tup(_))
- | (MethodCall(_, _, _), MethodCall(_, _, _))
+ | (MethodCall(_, _, _, _), MethodCall(_, _, _, _))
| (Call(_, _), Call(_, _))
| (ConstBlock(_), ConstBlock(_))
| (Array(_), Array(_))