//! A group of attributes that can be attached to Rust code in order //! to generate a clippy lint detecting said code automatically. use clippy_utils::{get_attr, higher}; use rustc_ast::ast::{LitFloatType, LitKind}; use rustc_ast::LitIntType; use rustc_data_structures::fx::FxHashMap; use rustc_hir as hir; use rustc_hir::{ArrayLen, Closure, ExprKind, FnRetTy, HirId, Lit, PatKind, QPath, StmtKind, TyKind}; use rustc_lint::{LateContext, LateLintPass, LintContext}; use rustc_session::{declare_lint_pass, declare_tool_lint}; use rustc_span::symbol::{Ident, Symbol}; use std::fmt::{Display, Formatter, Write as _}; declare_clippy_lint! { /// ### What it does /// Generates clippy code that detects the offending pattern /// /// ### Example /// ```rust,ignore /// // ./tests/ui/my_lint.rs /// fn foo() { /// // detect the following pattern /// #[clippy::author] /// if x == 42 { /// // but ignore everything from here on /// #![clippy::author = "ignore"] /// } /// () /// } /// ``` /// /// Running `TESTNAME=ui/my_lint cargo uitest` will produce /// a `./tests/ui/new_lint.stdout` file with the generated code: /// /// ```rust,ignore /// // ./tests/ui/new_lint.stdout /// if_chain! { /// if let ExprKind::If(ref cond, ref then, None) = item.kind, /// if let ExprKind::Binary(BinOp::Eq, ref left, ref right) = cond.kind, /// if let ExprKind::Path(ref path) = left.kind, /// if let ExprKind::Lit(ref lit) = right.kind, /// if let LitKind::Int(42, _) = lit.node, /// then { /// // report your lint here /// } /// } /// ``` pub LINT_AUTHOR, internal_warn, "helper for writing lints" } declare_lint_pass!(Author => [LINT_AUTHOR]); /// Writes a line of output with indentation added macro_rules! out { ($($t:tt)*) => { println!(" {}", format_args!($($t)*)) }; } /// The variables passed in are replaced with `&Binding`s where the `value` field is set /// to the original value of the variable. The `name` field is set to the name of the variable /// (using `stringify!`) and is adjusted to avoid duplicate names. /// Note that the `Binding` may be printed directly to output the `name`. macro_rules! bind { ($self:ident $(, $name:ident)+) => { $(let $name = & $self.bind(stringify!($name), $name);)+ }; } /// Transforms the given `Option` variables into `OptionPat>`. /// This displays as `Some($name)` or `None` when printed. The name of the inner binding /// is set to the name of the variable passed to the macro. macro_rules! opt_bind { ($self:ident $(, $name:ident)+) => { $(let $name = OptionPat::new($name.map(|o| $self.bind(stringify!($name), o)));)+ }; } /// Creates a `Binding` that accesses the field of an existing `Binding` macro_rules! field { ($binding:ident.$field:ident) => { &Binding { name: $binding.name.to_string() + stringify!(.$field), value: $binding.value.$field, } }; } fn prelude() { println!("if_chain! {{"); } fn done() { println!(" then {{"); println!(" // report your lint here"); println!(" }}"); println!("}}"); } impl<'tcx> LateLintPass<'tcx> for Author { fn check_item(&mut self, cx: &LateContext<'tcx>, item: &'tcx hir::Item<'_>) { check_item(cx, item.hir_id()); } fn check_impl_item(&mut self, cx: &LateContext<'tcx>, item: &'tcx hir::ImplItem<'_>) { check_item(cx, item.hir_id()); } fn check_trait_item(&mut self, cx: &LateContext<'tcx>, item: &'tcx hir::TraitItem<'_>) { check_item(cx, item.hir_id()); } fn check_arm(&mut self, cx: &LateContext<'tcx>, arm: &'tcx hir::Arm<'_>) { check_node(cx, arm.hir_id, |v| { v.arm(&v.bind("arm", arm)); }); } fn check_expr(&mut self, cx: &LateContext<'tcx>, expr: &'tcx hir::Expr<'_>) { check_node(cx, expr.hir_id, |v| { v.expr(&v.bind("expr", expr)); }); } fn check_stmt(&mut self, cx: &LateContext<'tcx>, stmt: &'tcx hir::Stmt<'_>) { match stmt.kind { StmtKind::Expr(e) | StmtKind::Semi(e) if has_attr(cx, e.hir_id) => return, _ => {}, } check_node(cx, stmt.hir_id, |v| { v.stmt(&v.bind("stmt", stmt)); }); } } fn check_item(cx: &LateContext<'_>, hir_id: HirId) { let hir = cx.tcx.hir(); if let Some(body_id) = hir.maybe_body_owned_by(hir_id) { check_node(cx, hir_id, |v| { v.expr(&v.bind("expr", &hir.body(body_id).value)); }); } } fn check_node(cx: &LateContext<'_>, hir_id: HirId, f: impl Fn(&PrintVisitor<'_, '_>)) { if has_attr(cx, hir_id) { prelude(); f(&PrintVisitor::new(cx)); done(); } } struct Binding { name: String, value: T, } impl Display for Binding { fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result { f.write_str(&self.name) } } struct OptionPat { pub opt: Option, } impl OptionPat { fn new(opt: Option) -> Self { Self { opt } } fn if_some(&self, f: impl Fn(&T)) { if let Some(t) = &self.opt { f(t); } } } impl Display for OptionPat { fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result { match &self.opt { None => f.write_str("None"), Some(node) => write!(f, "Some({node})"), } } } struct PrintVisitor<'a, 'tcx> { cx: &'a LateContext<'tcx>, /// Fields are the current index that needs to be appended to pattern /// binding names ids: std::cell::Cell>, } #[allow(clippy::unused_self)] impl<'a, 'tcx> PrintVisitor<'a, 'tcx> { fn new(cx: &'a LateContext<'tcx>) -> Self { Self { cx, ids: std::cell::Cell::default(), } } fn next(&self, s: &'static str) -> String { let mut ids = self.ids.take(); let out = match *ids.entry(s).and_modify(|n| *n += 1).or_default() { // first usage of the name, use it as is 0 => s.to_string(), // append a number starting with 1 n => format!("{s}{n}"), }; self.ids.set(ids); out } fn bind(&self, name: &'static str, value: T) -> Binding { let name = self.next(name); Binding { name, value } } fn option(&self, option: &Binding>, name: &'static str, f: impl Fn(&Binding)) { match option.value { None => out!("if {option}.is_none();"), Some(value) => { let value = &self.bind(name, value); out!("if let Some({value}) = {option};"); f(value); }, } } fn slice(&self, slice: &Binding<&[T]>, f: impl Fn(&Binding<&T>)) { if slice.value.is_empty() { out!("if {slice}.is_empty();"); } else { out!("if {slice}.len() == {};", slice.value.len()); for (i, value) in slice.value.iter().enumerate() { let name = format!("{slice}[{i}]"); f(&Binding { name, value }); } } } fn destination(&self, destination: &Binding) { self.option(field!(destination.label), "label", |label| { self.ident(field!(label.ident)); }); } fn ident(&self, ident: &Binding) { out!("if {ident}.as_str() == {:?};", ident.value.as_str()); } fn symbol(&self, symbol: &Binding) { out!("if {symbol}.as_str() == {:?};", symbol.value.as_str()); } fn qpath(&self, qpath: &Binding<&QPath<'_>>) { if let QPath::LangItem(lang_item, ..) = *qpath.value { out!("if matches!({qpath}, QPath::LangItem(LangItem::{lang_item:?}, _));"); } else { out!("if match_qpath({qpath}, &[{}]);", path_to_string(qpath.value)); } } fn lit(&self, lit: &Binding<&Lit>) { let kind = |kind| out!("if let LitKind::{kind} = {lit}.node;"); macro_rules! kind { ($($t:tt)*) => (kind(format_args!($($t)*))); } match lit.value.node { LitKind::Bool(val) => kind!("Bool({val:?})"), LitKind::Char(c) => kind!("Char({c:?})"), LitKind::Err(val) => kind!("Err({val})"), LitKind::Byte(b) => kind!("Byte({b})"), LitKind::Int(i, suffix) => { let int_ty = match suffix { LitIntType::Signed(int_ty) => format!("LitIntType::Signed(IntTy::{int_ty:?})"), LitIntType::Unsigned(uint_ty) => format!("LitIntType::Unsigned(UintTy::{uint_ty:?})"), LitIntType::Unsuffixed => String::from("LitIntType::Unsuffixed"), }; kind!("Int({i}, {int_ty})"); }, LitKind::Float(_, suffix) => { let float_ty = match suffix { LitFloatType::Suffixed(suffix_ty) => format!("LitFloatType::Suffixed(FloatTy::{suffix_ty:?})"), LitFloatType::Unsuffixed => String::from("LitFloatType::Unsuffixed"), }; kind!("Float(_, {float_ty})"); }, LitKind::ByteStr(ref vec) => { bind!(self, vec); kind!("ByteStr(ref {vec})"); out!("if let [{:?}] = **{vec};", vec.value); }, LitKind::Str(s, _) => { bind!(self, s); kind!("Str({s}, _)"); self.symbol(s); }, } } fn arm(&self, arm: &Binding<&hir::Arm<'_>>) { self.pat(field!(arm.pat)); match arm.value.guard { None => out!("if {arm}.guard.is_none();"), Some(hir::Guard::If(expr)) => { bind!(self, expr); out!("if let Some(Guard::If({expr})) = {arm}.guard;"); self.expr(expr); }, Some(hir::Guard::IfLet(let_expr)) => { bind!(self, let_expr); out!("if let Some(Guard::IfLet({let_expr}) = {arm}.guard;"); self.pat(field!(let_expr.pat)); self.expr(field!(let_expr.init)); }, } self.expr(field!(arm.body)); } #[allow(clippy::too_many_lines)] fn expr(&self, expr: &Binding<&hir::Expr<'_>>) { if let Some(higher::While { condition, body }) = higher::While::hir(expr.value) { bind!(self, condition, body); out!( "if let Some(higher::While {{ condition: {condition}, body: {body} }}) \ = higher::While::hir({expr});" ); self.expr(condition); self.expr(body); return; } if let Some(higher::WhileLet { let_pat, let_expr, if_then, }) = higher::WhileLet::hir(expr.value) { bind!(self, let_pat, let_expr, if_then); out!( "if let Some(higher::WhileLet {{ let_pat: {let_pat}, let_expr: {let_expr}, if_then: {if_then} }}) \ = higher::WhileLet::hir({expr});" ); self.pat(let_pat); self.expr(let_expr); self.expr(if_then); return; } if let Some(higher::ForLoop { pat, arg, body, .. }) = higher::ForLoop::hir(expr.value) { bind!(self, pat, arg, body); out!( "if let Some(higher::ForLoop {{ pat: {pat}, arg: {arg}, body: {body}, .. }}) \ = higher::ForLoop::hir({expr});" ); self.pat(pat); self.expr(arg); self.expr(body); return; } let kind = |kind| out!("if let ExprKind::{kind} = {expr}.kind;"); macro_rules! kind { ($($t:tt)*) => (kind(format_args!($($t)*))); } match expr.value.kind { ExprKind::Let(let_expr) => { bind!(self, let_expr); kind!("Let({let_expr})"); self.pat(field!(let_expr.pat)); // Does what ExprKind::Cast does, only adds a clause for the type // if it's a path if let Some(TyKind::Path(ref qpath)) = let_expr.value.ty.as_ref().map(|ty| &ty.kind) { bind!(self, qpath); out!("if let TyKind::Path(ref {qpath}) = {let_expr}.ty.kind;"); self.qpath(qpath); } self.expr(field!(let_expr.init)); }, ExprKind::Box(inner) => { bind!(self, inner); kind!("Box({inner})"); self.expr(inner); }, ExprKind::Array(elements) => { bind!(self, elements); kind!("Array({elements})"); self.slice(elements, |e| self.expr(e)); }, ExprKind::Call(func, args) => { bind!(self, func, args); kind!("Call({func}, {args})"); self.expr(func); self.slice(args, |e| self.expr(e)); }, ExprKind::MethodCall(method_name, args, _) => { bind!(self, method_name, args); kind!("MethodCall({method_name}, {args}, _)"); self.ident(field!(method_name.ident)); self.slice(args, |e| self.expr(e)); }, ExprKind::Tup(elements) => { bind!(self, elements); kind!("Tup({elements})"); self.slice(elements, |e| self.expr(e)); }, ExprKind::Binary(op, left, right) => { bind!(self, op, left, right); kind!("Binary({op}, {left}, {right})"); out!("if BinOpKind::{:?} == {op}.node;", op.value.node); self.expr(left); self.expr(right); }, ExprKind::Unary(op, inner) => { bind!(self, inner); kind!("Unary(UnOp::{op:?}, {inner})"); self.expr(inner); }, ExprKind::Lit(ref lit) => { bind!(self, lit); kind!("Lit(ref {lit})"); self.lit(lit); }, ExprKind::Cast(expr, cast_ty) => { bind!(self, expr, cast_ty); kind!("Cast({expr}, {cast_ty})"); if let TyKind::Path(ref qpath) = cast_ty.value.kind { bind!(self, qpath); out!("if let TyKind::Path(ref {qpath}) = {cast_ty}.kind;"); self.qpath(qpath); } self.expr(expr); }, ExprKind::Type(expr, _ty) => { bind!(self, expr); kind!("Type({expr}, _)"); self.expr(expr); }, ExprKind::Loop(body, label, des, _) => { bind!(self, body); opt_bind!(self, label); kind!("Loop({body}, {label}, LoopSource::{des:?}, _)"); self.block(body); label.if_some(|l| self.ident(field!(l.ident))); }, ExprKind::If(cond, then, else_expr) => { bind!(self, cond, then); opt_bind!(self, else_expr); kind!("If({cond}, {then}, {else_expr})"); self.expr(cond); self.expr(then); else_expr.if_some(|e| self.expr(e)); }, ExprKind::Match(scrutinee, arms, des) => { bind!(self, scrutinee, arms); kind!("Match({scrutinee}, {arms}, MatchSource::{des:?})"); self.expr(scrutinee); self.slice(arms, |arm| self.arm(arm)); }, ExprKind::Closure(&Closure { capture_clause, fn_decl, body: body_id, movability, .. }) => { let movability = OptionPat::new(movability.map(|m| format!("Movability::{m:?}"))); let ret_ty = match fn_decl.output { FnRetTy::DefaultReturn(_) => "FnRetTy::DefaultReturn(_)", FnRetTy::Return(_) => "FnRetTy::Return(_ty)", }; bind!(self, fn_decl, body_id); kind!("Closure(CaptureBy::{capture_clause:?}, {fn_decl}, {body_id}, _, {movability})"); out!("if let {ret_ty} = {fn_decl}.output;"); self.body(body_id); }, ExprKind::Yield(sub, source) => { bind!(self, sub); kind!("Yield(sub, YieldSource::{source:?})"); self.expr(sub); }, ExprKind::Block(block, label) => { bind!(self, block); opt_bind!(self, label); kind!("Block({block}, {label})"); self.block(block); label.if_some(|l| self.ident(field!(l.ident))); }, ExprKind::Assign(target, value, _) => { bind!(self, target, value); kind!("Assign({target}, {value}, _span)"); self.expr(target); self.expr(value); }, ExprKind::AssignOp(op, target, value) => { bind!(self, op, target, value); kind!("AssignOp({op}, {target}, {value})"); out!("if BinOpKind::{:?} == {op}.node;", op.value.node); self.expr(target); self.expr(value); }, ExprKind::Field(object, field_name) => { bind!(self, object, field_name); kind!("Field({object}, {field_name})"); self.ident(field_name); self.expr(object); }, ExprKind::Index(object, index) => { bind!(self, object, index); kind!("Index({object}, {index})"); self.expr(object); self.expr(index); }, ExprKind::Path(ref qpath) => { bind!(self, qpath); kind!("Path(ref {qpath})"); self.qpath(qpath); }, ExprKind::AddrOf(kind, mutability, inner) => { bind!(self, inner); kind!("AddrOf(BorrowKind::{kind:?}, Mutability::{mutability:?}, {inner})"); self.expr(inner); }, ExprKind::Break(destination, value) => { bind!(self, destination); opt_bind!(self, value); kind!("Break({destination}, {value})"); self.destination(destination); value.if_some(|e| self.expr(e)); }, ExprKind::Continue(destination) => { bind!(self, destination); kind!("Continue({destination})"); self.destination(destination); }, ExprKind::Ret(value) => { opt_bind!(self, value); kind!("Ret({value})"); value.if_some(|e| self.expr(e)); }, ExprKind::InlineAsm(_) => { kind!("InlineAsm(_)"); out!("// unimplemented: `ExprKind::InlineAsm` is not further destructured at the moment"); }, ExprKind::Struct(qpath, fields, base) => { bind!(self, qpath, fields); opt_bind!(self, base); kind!("Struct({qpath}, {fields}, {base})"); self.qpath(qpath); self.slice(fields, |field| { self.ident(field!(field.ident)); self.expr(field!(field.expr)); }); base.if_some(|e| self.expr(e)); }, ExprKind::ConstBlock(_) => kind!("ConstBlock(_)"), ExprKind::Repeat(value, length) => { bind!(self, value, length); kind!("Repeat({value}, {length})"); self.expr(value); match length.value { ArrayLen::Infer(..) => out!("if let ArrayLen::Infer(..) = length;"), ArrayLen::Body(anon_const) => { bind!(self, anon_const); out!("if let ArrayLen::Body({anon_const}) = {length};"); self.body(field!(anon_const.body)); }, } }, ExprKind::Err => kind!("Err"), ExprKind::DropTemps(expr) => { bind!(self, expr); kind!("DropTemps({expr})"); self.expr(expr); }, } } fn block(&self, block: &Binding<&hir::Block<'_>>) { self.slice(field!(block.stmts), |stmt| self.stmt(stmt)); self.option(field!(block.expr), "trailing_expr", |expr| { self.expr(expr); }); } fn body(&self, body_id: &Binding) { let expr = &self.cx.tcx.hir().body(body_id.value).value; bind!(self, expr); out!("let {expr} = &cx.tcx.hir().body({body_id}).value;"); self.expr(expr); } fn pat(&self, pat: &Binding<&hir::Pat<'_>>) { let kind = |kind| out!("if let PatKind::{kind} = {pat}.kind;"); macro_rules! kind { ($($t:tt)*) => (kind(format_args!($($t)*))); } match pat.value.kind { PatKind::Wild => kind!("Wild"), PatKind::Binding(anno, .., name, sub) => { bind!(self, name); opt_bind!(self, sub); kind!("Binding(BindingAnnotation::{anno:?}, _, {name}, {sub})"); self.ident(name); sub.if_some(|p| self.pat(p)); }, PatKind::Struct(ref qpath, fields, ignore) => { bind!(self, qpath, fields); kind!("Struct(ref {qpath}, {fields}, {ignore})"); self.qpath(qpath); self.slice(fields, |field| { self.ident(field!(field.ident)); self.pat(field!(field.pat)); }); }, PatKind::Or(fields) => { bind!(self, fields); kind!("Or({fields})"); self.slice(fields, |pat| self.pat(pat)); }, PatKind::TupleStruct(ref qpath, fields, skip_pos) => { bind!(self, qpath, fields); kind!("TupleStruct(ref {qpath}, {fields}, {skip_pos:?})"); self.qpath(qpath); self.slice(fields, |pat| self.pat(pat)); }, PatKind::Path(ref qpath) => { bind!(self, qpath); kind!("Path(ref {qpath})"); self.qpath(qpath); }, PatKind::Tuple(fields, skip_pos) => { bind!(self, fields); kind!("Tuple({fields}, {skip_pos:?})"); self.slice(fields, |field| self.pat(field)); }, PatKind::Box(pat) => { bind!(self, pat); kind!("Box({pat})"); self.pat(pat); }, PatKind::Ref(pat, muta) => { bind!(self, pat); kind!("Ref({pat}, Mutability::{muta:?})"); self.pat(pat); }, PatKind::Lit(lit_expr) => { bind!(self, lit_expr); kind!("Lit({lit_expr})"); self.expr(lit_expr); }, PatKind::Range(start, end, end_kind) => { opt_bind!(self, start, end); kind!("Range({start}, {end}, RangeEnd::{end_kind:?})"); start.if_some(|e| self.expr(e)); end.if_some(|e| self.expr(e)); }, PatKind::Slice(start, middle, end) => { bind!(self, start, end); opt_bind!(self, middle); kind!("Slice({start}, {middle}, {end})"); middle.if_some(|p| self.pat(p)); self.slice(start, |pat| self.pat(pat)); self.slice(end, |pat| self.pat(pat)); }, } } fn stmt(&self, stmt: &Binding<&hir::Stmt<'_>>) { let kind = |kind| out!("if let StmtKind::{kind} = {stmt}.kind;"); macro_rules! kind { ($($t:tt)*) => (kind(format_args!($($t)*))); } match stmt.value.kind { StmtKind::Local(local) => { bind!(self, local); kind!("Local({local})"); self.option(field!(local.init), "init", |init| { self.expr(init); }); self.pat(field!(local.pat)); }, StmtKind::Item(_) => kind!("Item(item_id)"), StmtKind::Expr(e) => { bind!(self, e); kind!("Expr({e})"); self.expr(e); }, StmtKind::Semi(e) => { bind!(self, e); kind!("Semi({e})"); self.expr(e); }, } } } fn has_attr(cx: &LateContext<'_>, hir_id: hir::HirId) -> bool { let attrs = cx.tcx.hir().attrs(hir_id); get_attr(cx.sess(), attrs, "author").count() > 0 } fn path_to_string(path: &QPath<'_>) -> String { fn inner(s: &mut String, path: &QPath<'_>) { match *path { QPath::Resolved(_, path) => { for (i, segment) in path.segments.iter().enumerate() { if i > 0 { *s += ", "; } write!(s, "{:?}", segment.ident.as_str()).unwrap(); } }, QPath::TypeRelative(ty, segment) => match &ty.kind { hir::TyKind::Path(inner_path) => { inner(s, inner_path); *s += ", "; write!(s, "{:?}", segment.ident.as_str()).unwrap(); }, other => write!(s, "/* unimplemented: {:?}*/", other).unwrap(), }, QPath::LangItem(..) => panic!("path_to_string: called for lang item qpath"), } } let mut s = String::new(); inner(&mut s, path); s }