use rustc_front::hir::*; use rustc::lint::*; use rustc::middle::ty; use rustc::middle::subst::Subst; use std::iter; use std::borrow::Cow; use utils::{snippet, span_lint, match_path, match_type, walk_ptrs_ty_depth}; use utils::{OPTION_PATH, RESULT_PATH, STRING_PATH}; use self::SelfKind::*; use self::OutType::*; #[derive(Copy,Clone)] pub struct MethodsPass; declare_lint!(pub OPTION_UNWRAP_USED, Allow, "using `Option.unwrap()`, which should at least get a better message using `expect()`"); declare_lint!(pub RESULT_UNWRAP_USED, Allow, "using `Result.unwrap()`, which might be better handled"); declare_lint!(pub STR_TO_STRING, Warn, "using `to_string()` on a str, which should be `to_owned()`"); declare_lint!(pub STRING_TO_STRING, Warn, "calling `String.to_string()` which is a no-op"); declare_lint!(pub SHOULD_IMPLEMENT_TRAIT, Warn, "defining a method that should be implementing a std trait"); declare_lint!(pub WRONG_SELF_CONVENTION, Warn, "defining a method named with an established prefix (like \"into_\") that takes \ `self` with the wrong convention"); declare_lint!(pub WRONG_PUB_SELF_CONVENTION, Allow, "defining a public method named with an established prefix (like \"into_\") that takes \ `self` with the wrong convention"); impl LintPass for MethodsPass { fn get_lints(&self) -> LintArray { lint_array!(OPTION_UNWRAP_USED, RESULT_UNWRAP_USED, STR_TO_STRING, STRING_TO_STRING, SHOULD_IMPLEMENT_TRAIT, WRONG_SELF_CONVENTION) } } impl LateLintPass for MethodsPass { fn check_expr(&mut self, cx: &LateContext, expr: &Expr) { if let ExprMethodCall(ref ident, _, ref args) = expr.node { let (obj_ty, ptr_depth) = walk_ptrs_ty_depth(cx.tcx.expr_ty(&args[0])); if ident.node.name == "unwrap" { if match_type(cx, obj_ty, &OPTION_PATH) { span_lint(cx, OPTION_UNWRAP_USED, expr.span, "used unwrap() on an Option value. If you don't want \ to handle the None case gracefully, consider using \ expect() to provide a better panic message"); } else if match_type(cx, obj_ty, &RESULT_PATH) { span_lint(cx, RESULT_UNWRAP_USED, expr.span, "used unwrap() on a Result value. Graceful handling \ of Err values is preferred"); } } else if ident.node.name == "to_string" { if obj_ty.sty == ty::TyStr { let mut arg_str = snippet(cx, args[0].span, "_"); if ptr_depth > 1 { arg_str = Cow::Owned(format!( "({}{})", iter::repeat('*').take(ptr_depth - 1).collect::(), arg_str)); } span_lint(cx, STR_TO_STRING, expr.span, &format!( "`{}.to_owned()` is faster", arg_str)); } else if match_type(cx, obj_ty, &STRING_PATH) { span_lint(cx, STRING_TO_STRING, expr.span, "`String.to_string()` is a no-op; use \ `clone()` to make a copy"); } } } } fn check_item(&mut self, cx: &LateContext, item: &Item) { if let ItemImpl(_, _, _, None, ref ty, ref items) = item.node { for implitem in items { let name = implitem.ident.name; if let MethodImplItem(ref sig, _) = implitem.node { // check missing trait implementations for &(method_name, n_args, self_kind, out_type, trait_name) in &TRAIT_METHODS { if_let_chain! { [ name == method_name, sig.decl.inputs.len() == n_args, out_type.matches(&sig.decl.output), self_kind.matches(&sig.explicit_self.node, false) ], { span_lint(cx, SHOULD_IMPLEMENT_TRAIT, implitem.span, &format!( "defining a method called `{}` on this type; consider implementing \ the `{}` trait or choosing a less ambiguous name", name, trait_name)); } } } // check conventions w.r.t. conversion method names and predicates let is_copy = is_copy(cx, &ty, &item); for &(prefix, self_kinds) in &CONVENTIONS { if name.as_str().starts_with(prefix) && !self_kinds.iter().any(|k| k.matches(&sig.explicit_self.node, is_copy)) { let lint = if item.vis == Visibility::Public { WRONG_PUB_SELF_CONVENTION } else { WRONG_SELF_CONVENTION }; span_lint(cx, lint, sig.explicit_self.span, &format!( "methods called `{}*` usually take {}; consider choosing a less \ ambiguous name", prefix, &self_kinds.iter().map(|k| k.description()).collect::>().join(" or "))); } } } } } } } const CONVENTIONS: [(&'static str, &'static [SelfKind]); 5] = [ ("into_", &[ValueSelf]), ("to_", &[RefSelf]), ("as_", &[RefSelf, RefMutSelf]), ("is_", &[RefSelf, NoSelf]), ("from_", &[NoSelf]), ]; const TRAIT_METHODS: [(&'static str, usize, SelfKind, OutType, &'static str); 30] = [ ("add", 2, ValueSelf, AnyType, "std::ops::Add"), ("sub", 2, ValueSelf, AnyType, "std::ops::Sub"), ("mul", 2, ValueSelf, AnyType, "std::ops::Mul"), ("div", 2, ValueSelf, AnyType, "std::ops::Div"), ("rem", 2, ValueSelf, AnyType, "std::ops::Rem"), ("shl", 2, ValueSelf, AnyType, "std::ops::Shl"), ("shr", 2, ValueSelf, AnyType, "std::ops::Shr"), ("bitand", 2, ValueSelf, AnyType, "std::ops::BitAnd"), ("bitor", 2, ValueSelf, AnyType, "std::ops::BitOr"), ("bitxor", 2, ValueSelf, AnyType, "std::ops::BitXor"), ("neg", 1, ValueSelf, AnyType, "std::ops::Neg"), ("not", 1, ValueSelf, AnyType, "std::ops::Not"), ("drop", 1, RefMutSelf, UnitType, "std::ops::Drop"), ("index", 2, RefSelf, RefType, "std::ops::Index"), ("index_mut", 2, RefMutSelf, RefType, "std::ops::IndexMut"), ("deref", 1, RefSelf, RefType, "std::ops::Deref"), ("deref_mut", 1, RefMutSelf, RefType, "std::ops::DerefMut"), ("clone", 1, RefSelf, AnyType, "std::clone::Clone"), ("borrow", 1, RefSelf, RefType, "std::borrow::Borrow"), ("borrow_mut", 1, RefMutSelf, RefType, "std::borrow::BorrowMut"), ("as_ref", 1, RefSelf, RefType, "std::convert::AsRef"), ("as_mut", 1, RefMutSelf, RefType, "std::convert::AsMut"), ("eq", 2, RefSelf, BoolType, "std::cmp::PartialEq"), ("cmp", 2, RefSelf, AnyType, "std::cmp::Ord"), ("default", 0, NoSelf, AnyType, "std::default::Default"), ("hash", 2, RefSelf, UnitType, "std::hash::Hash"), ("next", 1, RefMutSelf, AnyType, "std::iter::Iterator"), ("into_iter", 1, ValueSelf, AnyType, "std::iter::IntoIterator"), ("from_iter", 1, NoSelf, AnyType, "std::iter::FromIterator"), ("from_str", 1, NoSelf, AnyType, "std::str::FromStr"), ]; #[derive(Clone, Copy)] enum SelfKind { ValueSelf, RefSelf, RefMutSelf, NoSelf, } impl SelfKind { fn matches(&self, slf: &ExplicitSelf_, allow_value_for_ref: bool) -> bool { match (self, slf) { (&ValueSelf, &SelfValue(_)) => true, (&RefSelf, &SelfRegion(_, Mutability::MutImmutable, _)) => true, (&RefMutSelf, &SelfRegion(_, Mutability::MutMutable, _)) => true, (&RefSelf, &SelfValue(_)) => allow_value_for_ref, (&RefMutSelf, &SelfValue(_)) => allow_value_for_ref, (&NoSelf, &SelfStatic) => true, (_, &SelfExplicit(ref ty, _)) => self.matches_explicit_type(ty, allow_value_for_ref), _ => false } } fn matches_explicit_type(&self, ty: &Ty, allow_value_for_ref: bool) -> bool { match (self, &ty.node) { (&ValueSelf, &TyPath(..)) => true, (&RefSelf, &TyRptr(_, MutTy { mutbl: Mutability::MutImmutable, .. })) => true, (&RefMutSelf, &TyRptr(_, MutTy { mutbl: Mutability::MutMutable, .. })) => true, (&RefSelf, &TyPath(..)) => allow_value_for_ref, (&RefMutSelf, &TyPath(..)) => allow_value_for_ref, _ => false } } fn description(&self) -> &'static str { match *self { ValueSelf => "self by value", RefSelf => "self by reference", RefMutSelf => "self by mutable reference", NoSelf => "no self", } } } #[derive(Clone, Copy)] enum OutType { UnitType, BoolType, AnyType, RefType, } impl OutType { fn matches(&self, ty: &FunctionRetTy) -> bool { match (self, ty) { (&UnitType, &DefaultReturn(_)) => true, (&UnitType, &Return(ref ty)) if ty.node == TyTup(vec![]) => true, (&BoolType, &Return(ref ty)) if is_bool(ty) => true, (&AnyType, &Return(ref ty)) if ty.node != TyTup(vec![]) => true, (&RefType, &Return(ref ty)) => { if let TyRptr(_, _) = ty.node { true } else { false } } _ => false } } } fn is_bool(ty: &Ty) -> bool { if let TyPath(None, ref p) = ty.node { if match_path(p, &["bool"]) { return true; } } false } fn is_copy(cx: &LateContext, ast_ty: &Ty, item: &Item) -> bool { match cx.tcx.ast_ty_to_ty_cache.borrow().get(&ast_ty.id) { None => false, Some(ty) => { let env = ty::ParameterEnvironment::for_item(cx.tcx, item.id); !ty.subst(cx.tcx, &env.free_substs).moves_by_default(&env, ast_ty.span) } } }