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use rustc::lint::{LintPass, LintArray, LateLintPass, LateContext};
use rustc_front::hir::Expr;
use syntax::ast;
use rustc::middle::ty;
use rustc::middle::subst::ParamSpace;
use utils::{span_lint, MUTEX_PATH, match_type};
declare_lint! {
pub MUTEX_ATOMIC,
Warn,
"using a Mutex where an atomic value could be used instead"
}
declare_lint! {
pub MUTEX_INTEGER,
Allow,
"using a Mutex for an integer type"
}
impl LintPass for MutexAtomic {
fn get_lints(&self) -> LintArray {
lint_array!(MUTEX_ATOMIC, MUTEX_INTEGER)
}
}
pub struct MutexAtomic;
impl LateLintPass for MutexAtomic {
fn check_expr(&mut self, cx: &LateContext, expr: &Expr) {
let ty = cx.tcx.expr_ty(expr);
if let &ty::TyStruct(_, subst) = &ty.sty {
if match_type(cx, ty, &MUTEX_PATH) {
let mutex_param = &subst.types.get(ParamSpace::TypeSpace, 0).sty;
if let Some(atomic_name) = get_atomic_name(mutex_param) {
let msg = format!("Consider using an {} instead of a \
Mutex here. If you just want the \
locking behaviour and not the internal \
type, consider using Mutex<()>.",
atomic_name);
match *mutex_param {
ty::TyUint(t) if t != ast::TyUs =>
span_lint(cx, MUTEX_INTEGER, expr.span, &msg),
ty::TyInt(t) if t != ast::TyIs =>
span_lint(cx, MUTEX_INTEGER, expr.span, &msg),
_ => span_lint(cx, MUTEX_ATOMIC, expr.span, &msg)
}
}
}
}
}
}
fn get_atomic_name(ty: &ty::TypeVariants) -> Option<(&'static str)> {
match *ty {
ty::TyBool => Some("AtomicBool"),
ty::TyUint(_) => Some("AtomicUsize"),
ty::TyInt(_) => Some("AtomicIsize"),
ty::TyRawPtr(_) => Some("AtomicPtr"),
_ => None
}
}