// Copyright 2012-2013 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. use middle::def::*; use middle::ty; use middle::typeck; use util::ppaux; use syntax::ast::*; use syntax::ast_util; use syntax::visit::Visitor; use syntax::visit; struct CheckCrateVisitor<'a, 'tcx: 'a> { tcx: &'a ty::ctxt<'tcx>, in_const: bool } impl<'a, 'tcx> CheckCrateVisitor<'a, 'tcx> { fn with_const(&mut self, in_const: bool, f: |&mut CheckCrateVisitor<'a, 'tcx>|) { let was_const = self.in_const; self.in_const = in_const; f(self); self.in_const = was_const; } fn inside_const(&mut self, f: |&mut CheckCrateVisitor<'a, 'tcx>|) { self.with_const(true, f); } fn outside_const(&mut self, f: |&mut CheckCrateVisitor<'a, 'tcx>|) { self.with_const(false, f); } } impl<'a, 'tcx, 'v> Visitor<'v> for CheckCrateVisitor<'a, 'tcx> { fn visit_item(&mut self, i: &Item) { check_item(self, i); } fn visit_pat(&mut self, p: &Pat) { check_pat(self, p); } fn visit_expr(&mut self, ex: &Expr) { check_expr(self, ex); } } pub fn check_crate(tcx: &ty::ctxt) { visit::walk_crate(&mut CheckCrateVisitor { tcx: tcx, in_const: false }, tcx.map.krate()); tcx.sess.abort_if_errors(); } fn check_item(v: &mut CheckCrateVisitor, it: &Item) { match it.node { ItemStatic(_, _, ref ex) => { v.inside_const(|v| v.visit_expr(&**ex)); } ItemEnum(ref enum_definition, _) => { for var in (*enum_definition).variants.iter() { for ex in var.node.disr_expr.iter() { v.inside_const(|v| v.visit_expr(&**ex)); } } } _ => v.outside_const(|v| visit::walk_item(v, it)) } } fn check_pat(v: &mut CheckCrateVisitor, p: &Pat) { fn is_str(e: &Expr) -> bool { match e.node { ExprBox(_, ref expr) => { match expr.node { ExprLit(ref lit) => ast_util::lit_is_str(&**lit), _ => false, } } _ => false, } } match p.node { // Let through plain ~-string literals here PatLit(ref a) => if !is_str(&**a) { v.inside_const(|v| v.visit_expr(&**a)); }, PatRange(ref a, ref b) => { if !is_str(&**a) { v.inside_const(|v| v.visit_expr(&**a)); } if !is_str(&**b) { v.inside_const(|v| v.visit_expr(&**b)); } } _ => v.outside_const(|v| visit::walk_pat(v, p)) } } fn check_expr(v: &mut CheckCrateVisitor, e: &Expr) { if v.in_const { match e.node { ExprUnary(UnDeref, _) => { } ExprUnary(UnBox, _) | ExprUnary(UnUniq, _) => { span_err!(v.tcx.sess, e.span, E0010, "cannot do allocations in constant expressions"); return; } ExprLit(ref lit) if ast_util::lit_is_str(&**lit) => {} ExprBinary(..) | ExprUnary(..) => { let method_call = typeck::MethodCall::expr(e.id); if v.tcx.method_map.borrow().contains_key(&method_call) { span_err!(v.tcx.sess, e.span, E0011, "user-defined operators are not allowed in constant expressions"); } } ExprLit(_) => (), ExprCast(_, _) => { let ety = ty::expr_ty(v.tcx, e); if !ty::type_is_numeric(ety) && !ty::type_is_unsafe_ptr(ety) { span_err!(v.tcx.sess, e.span, E0012, "can not cast to `{}` in a constant expression", ppaux::ty_to_string(v.tcx, ety) ); } } ExprPath(ref pth) => { // NB: In the future you might wish to relax this slightly // to handle on-demand instantiation of functions via // foo:: in a const. Currently that is only done on // a path in trans::callee that only works in block contexts. if !pth.segments.iter().all(|segment| segment.types.is_empty()) { span_err!(v.tcx.sess, e.span, E0013, "paths in constants may only refer to items without type parameters"); } match v.tcx.def_map.borrow().find(&e.id) { Some(&DefStatic(..)) | Some(&DefFn(..)) | Some(&DefVariant(_, _, _)) | Some(&DefStruct(_)) => { } Some(&def) => { debug!("(checking const) found bad def: {:?}", def); span_err!(v.tcx.sess, e.span, E0014, "paths in constants may only refer to constants or functions"); } None => { v.tcx.sess.span_bug(e.span, "unbound path in const?!"); } } } ExprCall(ref callee, _) => { match v.tcx.def_map.borrow().find(&callee.id) { Some(&DefStruct(..)) => {} // OK. Some(&DefVariant(..)) => {} // OK. _ => { span_err!(v.tcx.sess, e.span, E0015, "function calls in constants are limited to struct and enum constructors"); } } } ExprBlock(ref block) => { // Check all statements in the block for stmt in block.stmts.iter() { let block_span_err = |span| span_err!(v.tcx.sess, span, E0016, "blocks in constants are limited to items and tail expressions"); match stmt.node { StmtDecl(ref span, _) => { match span.node { DeclLocal(_) => block_span_err(span.span), // Item statements are allowed DeclItem(_) => {} } } StmtExpr(ref expr, _) => block_span_err(expr.span), StmtSemi(ref semi, _) => block_span_err(semi.span), StmtMac(..) => v.tcx.sess.span_bug(e.span, "unexpanded statement macro in const?!") } } match block.expr { Some(ref expr) => check_expr(v, &**expr), None => {} } } ExprVec(_) | ExprAddrOf(MutImmutable, _) | ExprParen(..) | ExprField(..) | ExprTupField(..) | ExprIndex(..) | ExprTup(..) | ExprRepeat(..) | ExprStruct(..) => { } ExprAddrOf(_, ref inner) => { match inner.node { // Mutable slices are allowed. ExprVec(_) => {} _ => span_err!(v.tcx.sess, e.span, E0017, "references in constants may only refer to immutable values") } }, _ => { span_err!(v.tcx.sess, e.span, E0019, "constant contains unimplemented expression type"); return; } } } visit::walk_expr(v, e); }