librustc: Disallow use from reaching into impls or traits.

This can perhaps be restored in the future. For now this is a precursor to
making typedefs work as expected.
This commit is contained in:
Patrick Walton 2013-05-13 16:13:20 -07:00
parent 291518712f
commit ca9bb2d9ac
5 changed files with 187 additions and 65 deletions

View File

@ -255,8 +255,20 @@ pub enum AllowCapturingSelfFlag {
#[deriving(Eq)]
enum NameSearchType {
SearchItemsAndPublicImports, //< Search items and public imports.
SearchItemsAndAllImports, //< Search items and all imports.
/// We're doing a name search in order to resolve a `use` directive.
ImportSearch,
/// We're doing a name search in order to resolve a path type, a path
/// expression, or a path pattern. We can select public or private
/// names.
///
/// XXX: This should be ripped out of resolve and handled later, in
/// the privacy checking phase.
PathPublicOrPrivateSearch,
/// We're doing a name search in order to resolve a path type, a path
/// expression, or a path pattern. Allow only public names to be selected.
PathPublicOnlySearch,
}
pub enum BareIdentifierPatternResolution {
@ -394,6 +406,7 @@ pub enum ModuleKind {
NormalModuleKind,
ExternModuleKind,
TraitModuleKind,
ImplModuleKind,
AnonymousModuleKind,
}
@ -424,7 +437,6 @@ pub struct Module {
//
// There will be an anonymous module created around `g` with the ID of the
// entry block for `f`.
anonymous_children: @mut HashMap<node_id,@mut Module>,
// The status of resolving each import in this module.
@ -514,6 +526,38 @@ pub impl NameBindings {
}
}
/// Sets the kind of the module, creating a new one if necessary.
fn set_module_kind(@mut self,
privacy: Privacy,
parent_link: ParentLink,
def_id: Option<def_id>,
kind: ModuleKind,
sp: span) {
match self.type_def {
None => {
let module = @mut Module(parent_link, def_id, kind);
self.type_def = Some(TypeNsDef {
privacy: privacy,
module_def: Some(module),
type_def: None
})
}
Some(type_def) => {
match type_def.module_def {
None => {
let module = @mut Module(parent_link, def_id, kind);
self.type_def = Some(TypeNsDef {
privacy: privacy,
module_def: Some(module),
type_def: type_def.type_def
})
}
Some(module_def) => module_def.kind = kind,
}
}
}
}
/// Records a type definition.
fn define_type(@mut self, privacy: Privacy, def: def, sp: span) {
// Merges the type with the existing type def or creates a new one.
@ -1191,7 +1235,7 @@ pub impl Resolver {
name_bindings.define_module(Public,
parent_link,
Some(def_id),
TraitModuleKind,
ImplModuleKind,
sp);
let new_parent = ModuleReducedGraphParent(
@ -1579,8 +1623,8 @@ pub impl Resolver {
// If this is a trait, add all the method names
// to the trait info.
let method_def_ids = get_trait_method_def_ids(self.session.cstore,
def_id);
let method_def_ids =
get_trait_method_def_ids(self.session.cstore, def_id);
let mut interned_method_names = HashSet::new();
for method_def_ids.each |&method_def_id| {
let (method_name, explicit_self) =
@ -1608,6 +1652,14 @@ pub impl Resolver {
}
child_name_bindings.define_type(Public, def, dummy_sp());
// Define a module if necessary.
let parent_link = self.get_parent_link(new_parent, ident);
child_name_bindings.set_module_kind(Public,
parent_link,
Some(def_id),
TraitModuleKind,
dummy_sp())
}
def_ty(_) => {
debug!("(building reduced graph for external \
@ -1750,6 +1802,10 @@ pub impl Resolver {
// We already have a module. This
// is OK.
type_module = module_def;
// Mark it as an impl module if
// necessary.
type_module.kind = ImplModuleKind;
}
Some(_) | None => {
let parent_link =
@ -1759,7 +1815,7 @@ pub impl Resolver {
Public,
parent_link,
Some(def),
NormalModuleKind,
ImplModuleKind,
dummy_sp());
type_module =
child_name_bindings.
@ -1866,10 +1922,8 @@ pub impl Resolver {
// remain or unsuccessfully when no forward progress in resolving imports
// is made.
/**
* Resolves all imports for the crate. This method performs the fixed-
* point iteration.
*/
/// Resolves all imports for the crate. This method performs the fixed-
/// point iteration.
fn resolve_imports(@mut self) {
let mut i = 0;
let mut prev_unresolved_imports = 0;
@ -1991,9 +2045,10 @@ pub impl Resolver {
/// don't know whether the name exists at the moment due to other
/// currently-unresolved imports, or success if we know the name exists.
/// If successful, the resolved bindings are written into the module.
fn resolve_import_for_module(@mut self, module_: @mut Module,
fn resolve_import_for_module(@mut self,
module_: @mut Module,
import_directive: @ImportDirective)
-> ResolveResult<()> {
-> ResolveResult<()> {
let mut resolution_result = Failed;
let module_path = &import_directive.module_path;
@ -2007,10 +2062,11 @@ pub impl Resolver {
// Use the crate root.
Some(self.graph_root.get_module())
} else {
match self.resolve_module_path_for_import(module_,
*module_path,
DontUseLexicalScope,
import_directive.span) {
match self.resolve_module_path(module_,
*module_path,
DontUseLexicalScope,
import_directive.span,
ImportSearch) {
Failed => None,
Indeterminate => {
@ -2097,7 +2153,7 @@ pub impl Resolver {
target: ident,
source: ident,
span: span)
-> ResolveResult<()> {
-> ResolveResult<()> {
debug!("(resolving single import) resolving `%s` = `%s::%s` from \
`%s`",
*self.session.str_of(target),
@ -2134,9 +2190,7 @@ pub impl Resolver {
// Unless we managed to find a result in both namespaces (unlikely),
// search imports as well.
match (value_result, type_result) {
(BoundResult(*), BoundResult(*)) => {
// Continue.
}
(BoundResult(*), BoundResult(*)) => {} // Continue.
_ => {
// If there is an unresolved glob at this point in the
// containing module, bail out. We don't know enough to be
@ -2460,7 +2514,6 @@ pub impl Resolver {
// Resolve the module part of the path. This does not involve looking
// upward though scope chains; we simply resolve names directly in
// modules as we go.
while index < module_path_len {
let name = module_path[index];
match self.resolve_name_in_module(search_module,
@ -2470,12 +2523,17 @@ pub impl Resolver {
Failed => {
let segment_name = self.session.str_of(name);
let module_name = self.module_to_str(search_module);
if module_name == ~"???" {
self.session.span_err(span {lo: span.lo, hi: span.lo +
BytePos(str::len(*segment_name)), expn_info:
span.expn_info}, fmt!("unresolved import. maybe \
a missing `extern mod %s`?",
*segment_name));
if "???" == module_name {
let span = span {
lo: span.lo,
hi: span.lo + BytePos(str::len(*segment_name)),
expn_info: span.expn_info,
};
self.session.span_err(span,
fmt!("unresolved import. maybe \
a missing `extern mod \
%s`?",
*segment_name));
return Failed;
}
self.session.span_err(span, fmt!("unresolved import: could not find `%s` in \
@ -2504,8 +2562,22 @@ pub impl Resolver {
name)));
return Failed;
}
Some(copy module_def) => {
search_module = module_def;
Some(module_def) => {
// If we're doing the search for an
// import, do not allow traits and impls
// to be selected.
match (name_search_type,
module_def.kind) {
(ImportSearch, TraitModuleKind) |
(ImportSearch, ImplModuleKind) => {
self.session.span_err(
span,
~"cannot import from a trait \
or type implementation");
return Failed;
}
(_, _) => search_module = module_def,
}
}
}
}
@ -2523,18 +2595,13 @@ pub impl Resolver {
index += 1;
// After the first element of the path, allow searching through
// items and imports unconditionally. This allows things like:
// After the first element of the path, allow searching only
// through public identifiers.
//
// pub mod core {
// pub use vec;
// }
//
// pub mod something_else {
// use core::vec;
// }
name_search_type = SearchItemsAndPublicImports;
// XXX: Rip this out and move it to the privacy checker.
if name_search_type == PathPublicOrPrivateSearch {
name_search_type = PathPublicOnlySearch
}
}
return Success(search_module);
@ -2542,12 +2609,13 @@ pub impl Resolver {
/// Attempts to resolve the module part of an import directive or path
/// rooted at the given module.
fn resolve_module_path_for_import(@mut self,
module_: @mut Module,
module_path: &[ident],
use_lexical_scope: UseLexicalScopeFlag,
span: span)
-> ResolveResult<@mut Module> {
fn resolve_module_path(@mut self,
module_: @mut Module,
module_path: &[ident],
use_lexical_scope: UseLexicalScopeFlag,
span: span,
name_search_type: NameSearchType)
-> ResolveResult<@mut Module> {
let module_path_len = module_path.len();
assert!(module_path_len > 0);
@ -2630,7 +2698,7 @@ pub impl Resolver {
module_path,
start_index,
span,
SearchItemsAndPublicImports)
name_search_type)
}
/// Invariant: This must only be called during main resolution, not during
@ -2722,6 +2790,7 @@ pub impl Resolver {
}
ExternModuleKind |
TraitModuleKind |
ImplModuleKind |
AnonymousModuleKind => {
search_module = parent_module_node;
}
@ -2741,7 +2810,7 @@ pub impl Resolver {
match self.resolve_name_in_module(search_module,
name,
namespace,
SearchItemsAndAllImports) {
PathPublicOrPrivateSearch) {
Failed => {
// Continue up the search chain.
}
@ -2822,6 +2891,7 @@ pub impl Resolver {
NormalModuleKind => return Some(new_module),
ExternModuleKind |
TraitModuleKind |
ImplModuleKind |
AnonymousModuleKind => module_ = new_module,
}
}
@ -2838,7 +2908,10 @@ pub impl Resolver {
-> @mut Module {
match module_.kind {
NormalModuleKind => return module_,
ExternModuleKind | TraitModuleKind | AnonymousModuleKind => {
ExternModuleKind |
TraitModuleKind |
ImplModuleKind |
AnonymousModuleKind => {
match self.get_nearest_normal_module_parent(module_) {
None => module_,
Some(new_module) => new_module
@ -2922,8 +2995,14 @@ pub impl Resolver {
// If this is a search of all imports, we should be done with glob
// resolution at this point.
<<<<<<< HEAD
if name_search_type == SearchItemsAndAllImports {
assert_eq!(module_.glob_count, 0);
=======
if name_search_type == PathPublicOrPrivateSearch ||
name_search_type == PathPublicOnlySearch {
assert!(module_.glob_count == 0);
>>>>>>> librustc: Disallow `use` from reaching into impls or traits.
}
// Check the list of resolved imports.
@ -2944,7 +3023,7 @@ pub impl Resolver {
}
Some(target)
if name_search_type ==
SearchItemsAndAllImports ||
PathPublicOrPrivateSearch ||
import_resolution.privacy == Public => {
debug!("(resolving name in module) resolved to \
import");
@ -4483,10 +4562,11 @@ pub impl Resolver {
let module_path_idents = self.intern_module_part_of_path(path);
let containing_module;
match self.resolve_module_path_for_import(self.current_module,
module_path_idents,
UseLexicalScope,
path.span) {
match self.resolve_module_path(self.current_module,
module_path_idents,
UseLexicalScope,
path.span,
PathPublicOnlySearch) {
Failed => {
self.session.span_err(path.span,
fmt!("use of undeclared module `%s`",
@ -4535,7 +4615,7 @@ pub impl Resolver {
module_path_idents,
0,
path.span,
SearchItemsAndAllImports) {
PathPublicOrPrivateSearch) {
Failed => {
self.session.span_err(path.span,
fmt!("use of undeclared module `::%s`",

View File

@ -602,7 +602,6 @@ impl PkgSrc {
/// Infers crates to build. Called only in the case where there
/// is no custom build logic
fn find_crates(&mut self) {
use PkgSrc::push_crate;
use conditions::missing_pkg_files::cond;
let dir = self.check_dir();
@ -610,14 +609,18 @@ impl PkgSrc {
debug!("Matching against %?", self.id.local_path.filestem());
for os::walk_dir(&dir) |pth| {
match pth.filename() {
Some(~"lib.rs") => push_crate(&mut self.libs,
prefix, pth),
Some(~"main.rs") => push_crate(&mut self.mains,
prefix, pth),
Some(~"test.rs") => push_crate(&mut self.tests,
prefix, pth),
Some(~"bench.rs") => push_crate(&mut self.benchs,
prefix, pth),
Some(~"lib.rs") => PkgSrc::push_crate(&mut self.libs,
prefix,
pth),
Some(~"main.rs") => PkgSrc::push_crate(&mut self.mains,
prefix,
pth),
Some(~"test.rs") => PkgSrc::push_crate(&mut self.tests,
prefix,
pth),
Some(~"bench.rs") => PkgSrc::push_crate(&mut self.benchs,
prefix,
pth),
_ => ()
}
}

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@ -0,0 +1,10 @@
pub trait Trait {
fn foo();
}
struct Foo;
impl Foo {
pub fn new() {}
}

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@ -0,0 +1,12 @@
// aux-build:use_from_trait_xc.rs
extern mod use_from_trait_xc;
use use_from_trait_xc::Trait::foo; //~ ERROR cannot import from a trait or type implementation
//~^ ERROR failed to resolve import
use use_from_trait_xc::Foo::new; //~ ERROR cannot import from a trait or type implementation
//~^ ERROR failed to resolve import
fn main() {
}

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@ -0,0 +1,17 @@
use Trait::foo; //~ ERROR cannot import from a trait or type implementation
//~^ ERROR failed to resolve import
use Foo::new; //~ ERROR cannot import from a trait or type implementation
//~^ ERROR failed to resolve import
pub trait Trait {
fn foo();
}
struct Foo;
impl Foo {
fn new() {}
}
fn main() {}