// Copyright 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. //! Feature gating //! //! This modules implements the gating necessary for preventing certain compiler //! features from being used by default. This module will crawl a pre-expanded //! AST to ensure that there are no features which are used that are not //! enabled. //! //! Features are enabled in programs via the crate-level attributes of //! `#![feature(...)]` with a comma-separated list of features. use abi::RustIntrinsic; use ast::NodeId; use ast; use attr; use attr::AttrMetaMethods; use codemap::Span; use diagnostic::SpanHandler; use visit; use visit::Visitor; use parse::token; use std::slice; /// This is a list of all known features since the beginning of time. This list /// can never shrink, it may only be expanded (in order to prevent old programs /// from failing to compile). The status of each feature may change, however. static KNOWN_FEATURES: &'static [(&'static str, Status)] = &[ ("globs", Active), ("macro_rules", Active), ("struct_variant", Active), ("once_fns", Active), ("asm", Active), ("managed_boxes", Removed), ("non_ascii_idents", Active), ("thread_local", Active), ("link_args", Active), ("phase", Active), ("plugin_registrar", Active), ("log_syntax", Active), ("trace_macros", Active), ("concat_idents", Active), ("unsafe_destructor", Active), ("intrinsics", Active), ("lang_items", Active), ("simd", Active), ("default_type_params", Active), ("quote", Active), ("linkage", Active), ("struct_inherit", Active), ("overloaded_calls", Active), ("unboxed_closure_sugar", Active), ("quad_precision_float", Removed), ("rustc_diagnostic_macros", Active), ("unboxed_closures", Active), ("import_shadowing", Active), ("advanced_slice_patterns", Active), ("tuple_indexing", Active), ("associated_types", Active), ("visible_private_types", Active), ("slicing_syntax", Active), ("if_let", Active), // if you change this list without updating src/doc/reference.md, cmr will be sad // A temporary feature gate used to enable parser extensions needed // to bootstrap fix for #5723. ("issue_5723_bootstrap", Accepted), // These are used to test this portion of the compiler, they don't actually // mean anything ("test_accepted_feature", Accepted), ("test_removed_feature", Removed), ]; enum Status { /// Represents an active feature that is currently being implemented or /// currently being considered for addition/removal. Active, /// Represents a feature which has since been removed (it was once Active) Removed, /// This language feature has since been Accepted (it was once Active) Accepted, } /// A set of features to be used by later passes. pub struct Features { pub default_type_params: bool, pub overloaded_calls: bool, pub rustc_diagnostic_macros: bool, pub import_shadowing: bool, pub visible_private_types: bool, pub quote: bool, } impl Features { pub fn new() -> Features { Features { default_type_params: false, overloaded_calls: false, rustc_diagnostic_macros: false, import_shadowing: false, visible_private_types: false, quote: false, } } } struct Context<'a> { features: Vec<&'static str>, span_handler: &'a SpanHandler, } impl<'a> Context<'a> { fn gate_feature(&self, feature: &str, span: Span, explain: &str) { if !self.has_feature(feature) { self.span_handler.span_err(span, explain); self.span_handler.span_note(span, format!("add #![feature({})] to the \ crate attributes to enable", feature).as_slice()); } } fn has_feature(&self, feature: &str) -> bool { self.features.iter().any(|n| n.as_slice() == feature) } } impl<'a, 'v> Visitor<'v> for Context<'a> { fn visit_ident(&mut self, sp: Span, id: ast::Ident) { if !token::get_ident(id).get().is_ascii() { self.gate_feature("non_ascii_idents", sp, "non-ascii idents are not fully supported."); } } fn visit_view_item(&mut self, i: &ast::ViewItem) { match i.node { ast::ViewItemUse(ref path) => { match path.node { ast::ViewPathGlob(..) => { self.gate_feature("globs", path.span, "glob import statements are \ experimental and possibly buggy"); } _ => {} } } ast::ViewItemExternCrate(..) => { for attr in i.attrs.iter() { if attr.name().get() == "phase"{ self.gate_feature("phase", attr.span, "compile time crate loading is \ experimental and possibly buggy"); } } } } visit::walk_view_item(self, i) } fn visit_item(&mut self, i: &ast::Item) { for attr in i.attrs.iter() { if attr.name().equiv(&("thread_local")) { self.gate_feature("thread_local", i.span, "`#[thread_local]` is an experimental feature, and does not \ currently handle destructors. There is no corresponding \ `#[task_local]` mapping to the task model"); } } match i.node { ast::ItemEnum(ref def, _) => { for variant in def.variants.iter() { match variant.node.kind { ast::StructVariantKind(..) => { self.gate_feature("struct_variant", variant.span, "enum struct variants are \ experimental and possibly buggy"); } _ => {} } } } ast::ItemForeignMod(ref foreign_module) => { if attr::contains_name(i.attrs.as_slice(), "link_args") { self.gate_feature("link_args", i.span, "the `link_args` attribute is not portable \ across platforms, it is recommended to \ use `#[link(name = \"foo\")]` instead") } if foreign_module.abi == RustIntrinsic { self.gate_feature("intrinsics", i.span, "intrinsics are subject to change") } } ast::ItemFn(..) => { if attr::contains_name(i.attrs.as_slice(), "plugin_registrar") { self.gate_feature("plugin_registrar", i.span, "compiler plugins are experimental and possibly buggy"); } } ast::ItemStruct(ref struct_definition, _) => { if attr::contains_name(i.attrs.as_slice(), "simd") { self.gate_feature("simd", i.span, "SIMD types are experimental and possibly buggy"); } match struct_definition.super_struct { Some(ref path) => self.gate_feature("struct_inherit", path.span, "struct inheritance is experimental \ and possibly buggy"), None => {} } if struct_definition.is_virtual { self.gate_feature("struct_inherit", i.span, "struct inheritance (`virtual` keyword) is \ experimental and possibly buggy"); } } ast::ItemImpl(_, _, _, ref items) => { if attr::contains_name(i.attrs.as_slice(), "unsafe_destructor") { self.gate_feature("unsafe_destructor", i.span, "`#[unsafe_destructor]` allows too \ many unsafe patterns and may be \ removed in the future"); } for item in items.iter() { match *item { ast::MethodImplItem(_) => {} ast::TypeImplItem(ref typedef) => { self.gate_feature("associated_types", typedef.span, "associated types are \ experimental") } } } } _ => {} } visit::walk_item(self, i); } fn visit_trait_item(&mut self, trait_item: &ast::TraitItem) { match *trait_item { ast::RequiredMethod(_) | ast::ProvidedMethod(_) => {} ast::TypeTraitItem(ref ti) => { self.gate_feature("associated_types", ti.span, "associated types are experimental") } } } fn visit_mac(&mut self, macro: &ast::Mac) { let ast::MacInvocTT(ref path, _, _) = macro.node; let id = path.segments.last().unwrap().identifier; if id == token::str_to_ident("macro_rules") { self.gate_feature("macro_rules", path.span, "macro definitions are \ not stable enough for use and are subject to change"); } else if id == token::str_to_ident("asm") { self.gate_feature("asm", path.span, "inline assembly is not \ stable enough for use and is subject to change"); } else if id == token::str_to_ident("log_syntax") { self.gate_feature("log_syntax", path.span, "`log_syntax!` is not \ stable enough for use and is subject to change"); } else if id == token::str_to_ident("trace_macros") { self.gate_feature("trace_macros", path.span, "`trace_macros` is not \ stable enough for use and is subject to change"); } else if id == token::str_to_ident("concat_idents") { self.gate_feature("concat_idents", path.span, "`concat_idents` is not \ stable enough for use and is subject to change"); } } fn visit_foreign_item(&mut self, i: &ast::ForeignItem) { if attr::contains_name(i.attrs.as_slice(), "linkage") { self.gate_feature("linkage", i.span, "the `linkage` attribute is experimental \ and not portable across platforms") } visit::walk_foreign_item(self, i) } fn visit_ty(&mut self, t: &ast::Ty) { match t.node { ast::TyClosure(ref closure) if closure.onceness == ast::Once => { self.gate_feature("once_fns", t.span, "once functions are \ experimental and likely to be removed"); }, ast::TyUnboxedFn(..) => { self.gate_feature("unboxed_closure_sugar", t.span, "unboxed closure trait sugar is experimental"); } _ => {} } visit::walk_ty(self, t); } fn visit_expr(&mut self, e: &ast::Expr) { match e.node { ast::ExprUnboxedFn(..) => { self.gate_feature("unboxed_closures", e.span, "unboxed closures are a work-in-progress \ feature with known bugs"); } ast::ExprTupField(..) => { self.gate_feature("tuple_indexing", e.span, "tuple indexing is experimental"); } ast::ExprIfLet(..) => { self.gate_feature("if_let", e.span, "`if let` syntax is experimental"); } ast::ExprSlice(..) => { self.gate_feature("slicing_syntax", e.span, "slicing syntax is experimental"); } _ => {} } visit::walk_expr(self, e); } fn visit_generics(&mut self, generics: &ast::Generics) { for type_parameter in generics.ty_params.iter() { match type_parameter.default { Some(ref ty) => { self.gate_feature("default_type_params", ty.span, "default type parameters are \ experimental and possibly buggy"); } None => {} } } visit::walk_generics(self, generics); } fn visit_attribute(&mut self, attr: &ast::Attribute) { if attr::contains_name(slice::ref_slice(attr), "lang") { self.gate_feature("lang_items", attr.span, "language items are subject to change"); } } fn visit_pat(&mut self, pattern: &ast::Pat) { match pattern.node { ast::PatVec(_, Some(_), ref last) if !last.is_empty() => { self.gate_feature("advanced_slice_patterns", pattern.span, "multiple-element slice matches anywhere \ but at the end of a slice (e.g. \ `[0, ..xs, 0]` are experimental") } _ => {} } visit::walk_pat(self, pattern) } fn visit_fn(&mut self, fn_kind: visit::FnKind<'v>, fn_decl: &'v ast::FnDecl, block: &'v ast::Block, span: Span, _: NodeId) { match fn_kind { visit::FkItemFn(_, _, _, abi) if abi == RustIntrinsic => { self.gate_feature("intrinsics", span, "intrinsics are subject to change") } _ => {} } visit::walk_fn(self, fn_kind, fn_decl, block, span); } } pub fn check_crate(span_handler: &SpanHandler, krate: &ast::Crate) -> (Features, Vec) { let mut cx = Context { features: Vec::new(), span_handler: span_handler, }; let mut unknown_features = Vec::new(); for attr in krate.attrs.iter() { if !attr.check_name("feature") { continue } match attr.meta_item_list() { None => { span_handler.span_err(attr.span, "malformed feature attribute, \ expected #![feature(...)]"); } Some(list) => { for mi in list.iter() { let name = match mi.node { ast::MetaWord(ref word) => (*word).clone(), _ => { span_handler.span_err(mi.span, "malformed feature, expected just \ one word"); continue } }; match KNOWN_FEATURES.iter() .find(|& &(n, _)| name.equiv(&n)) { Some(&(name, Active)) => { cx.features.push(name); } Some(&(_, Removed)) => { span_handler.span_err(mi.span, "feature has been removed"); } Some(&(_, Accepted)) => { span_handler.span_warn(mi.span, "feature has been added to Rust, \ directive not necessary"); } None => { unknown_features.push(mi.span); } } } } } } visit::walk_crate(&mut cx, krate); (Features { default_type_params: cx.has_feature("default_type_params"), overloaded_calls: cx.has_feature("overloaded_calls"), rustc_diagnostic_macros: cx.has_feature("rustc_diagnostic_macros"), import_shadowing: cx.has_feature("import_shadowing"), visible_private_types: cx.has_feature("visible_private_types"), quote: cx.has_feature("quote"), }, unknown_features) }