// except according to those terms.
use middle::def::*;
+use middle::def_id::DefId;
use middle::ty;
use util::nodemap::FnvHashMap;
use syntax::ast;
-use syntax::ast_util::walk_pat;
-use syntax::codemap::{Span, DUMMY_SP};
+use rustc_front::hir;
+use rustc_front::util::walk_pat;
+use syntax::codemap::{respan, Span, Spanned, DUMMY_SP};
-pub type PatIdMap = FnvHashMap<ast::Ident, ast::NodeId>;
+pub type PatIdMap = FnvHashMap<ast::Name, ast::NodeId>;
// This is used because same-named variables in alternative patterns need to
// use the NodeId of their namesake in the first pattern.
-pub fn pat_id_map(dm: &DefMap, pat: &ast::Pat) -> PatIdMap {
+pub fn pat_id_map(dm: &DefMap, pat: &hir::Pat) -> PatIdMap {
let mut map = FnvHashMap();
pat_bindings(dm, pat, |_bm, p_id, _s, path1| {
map.insert(path1.node, p_id);
map
}
-pub fn pat_is_refutable(dm: &DefMap, pat: &ast::Pat) -> bool {
+pub fn pat_is_refutable(dm: &DefMap, pat: &hir::Pat) -> bool {
match pat.node {
- ast::PatLit(_) | ast::PatRange(_, _) | ast::PatQPath(..) => true,
- ast::PatEnum(_, _) |
- ast::PatIdent(_, _, None) |
- ast::PatStruct(..) => {
+ hir::PatLit(_) | hir::PatRange(_, _) | hir::PatQPath(..) => true,
+ hir::PatEnum(_, _) |
+ hir::PatIdent(_, _, None) |
+ hir::PatStruct(..) => {
match dm.borrow().get(&pat.id).map(|d| d.full_def()) {
Some(DefVariant(..)) => true,
_ => false
}
}
- ast::PatVec(_, _, _) => true,
+ hir::PatVec(_, _, _) => true,
_ => false
}
}
-pub fn pat_is_variant_or_struct(dm: &DefMap, pat: &ast::Pat) -> bool {
+pub fn pat_is_variant_or_struct(dm: &DefMap, pat: &hir::Pat) -> bool {
match pat.node {
- ast::PatEnum(_, _) |
- ast::PatIdent(_, _, None) |
- ast::PatStruct(..) => {
+ hir::PatEnum(_, _) |
+ hir::PatIdent(_, _, None) |
+ hir::PatStruct(..) => {
match dm.borrow().get(&pat.id).map(|d| d.full_def()) {
Some(DefVariant(..)) | Some(DefStruct(..)) => true,
_ => false
}
}
-pub fn pat_is_const(dm: &DefMap, pat: &ast::Pat) -> bool {
+pub fn pat_is_const(dm: &DefMap, pat: &hir::Pat) -> bool {
match pat.node {
- ast::PatIdent(_, _, None) | ast::PatEnum(..) | ast::PatQPath(..) => {
+ hir::PatIdent(_, _, None) | hir::PatEnum(..) | hir::PatQPath(..) => {
match dm.borrow().get(&pat.id).map(|d| d.full_def()) {
Some(DefConst(..)) | Some(DefAssociatedConst(..)) => true,
_ => false
// Same as above, except that partially-resolved defs cause `false` to be
// returned instead of a panic.
-pub fn pat_is_resolved_const(dm: &DefMap, pat: &ast::Pat) -> bool {
+pub fn pat_is_resolved_const(dm: &DefMap, pat: &hir::Pat) -> bool {
match pat.node {
- ast::PatIdent(_, _, None) | ast::PatEnum(..) | ast::PatQPath(..) => {
+ hir::PatIdent(_, _, None) | hir::PatEnum(..) | hir::PatQPath(..) => {
match dm.borrow().get(&pat.id)
.and_then(|d| if d.depth == 0 { Some(d.base_def) }
else { None } ) {
}
}
-pub fn pat_is_binding(dm: &DefMap, pat: &ast::Pat) -> bool {
+pub fn pat_is_binding(dm: &DefMap, pat: &hir::Pat) -> bool {
match pat.node {
- ast::PatIdent(..) => {
+ hir::PatIdent(..) => {
!pat_is_variant_or_struct(dm, pat) &&
!pat_is_const(dm, pat)
}
}
}
-pub fn pat_is_binding_or_wild(dm: &DefMap, pat: &ast::Pat) -> bool {
+pub fn pat_is_binding_or_wild(dm: &DefMap, pat: &hir::Pat) -> bool {
match pat.node {
- ast::PatIdent(..) => pat_is_binding(dm, pat),
- ast::PatWild(_) => true,
+ hir::PatIdent(..) => pat_is_binding(dm, pat),
+ hir::PatWild(_) => true,
_ => false
}
}
/// Call `it` on every "binding" in a pattern, e.g., on `a` in
/// `match foo() { Some(a) => (), None => () }`
-pub fn pat_bindings<I>(dm: &DefMap, pat: &ast::Pat, mut it: I) where
- I: FnMut(ast::BindingMode, ast::NodeId, Span, &ast::SpannedIdent),
+pub fn pat_bindings<I>(dm: &DefMap, pat: &hir::Pat, mut it: I) where
+ I: FnMut(hir::BindingMode, ast::NodeId, Span, &Spanned<ast::Name>),
{
walk_pat(pat, |p| {
match p.node {
- ast::PatIdent(binding_mode, ref pth, _) if pat_is_binding(dm, p) => {
- it(binding_mode, p.id, p.span, pth);
+ hir::PatIdent(binding_mode, ref pth, _) if pat_is_binding(dm, p) => {
+ it(binding_mode, p.id, p.span, &respan(pth.span, pth.node.name));
+ }
+ _ => {}
+ }
+ true
+ });
+}
+
+pub fn pat_bindings_hygienic<I>(dm: &DefMap, pat: &hir::Pat, mut it: I) where
+ I: FnMut(hir::BindingMode, ast::NodeId, Span, &Spanned<ast::Ident>),
+{
+ walk_pat(pat, |p| {
+ match p.node {
+ hir::PatIdent(binding_mode, ref pth, _) if pat_is_binding(dm, p) => {
+ it(binding_mode, p.id, p.span, &respan(pth.span, pth.node));
}
_ => {}
}
/// Checks if the pattern contains any patterns that bind something to
/// an ident, e.g. `foo`, or `Foo(foo)` or `foo @ Bar(..)`.
-pub fn pat_contains_bindings(dm: &DefMap, pat: &ast::Pat) -> bool {
+pub fn pat_contains_bindings(dm: &DefMap, pat: &hir::Pat) -> bool {
let mut contains_bindings = false;
walk_pat(pat, |p| {
if pat_is_binding(dm, p) {
/// Checks if the pattern contains any `ref` or `ref mut` bindings,
/// and if yes wether its containing mutable ones or just immutables ones.
-pub fn pat_contains_ref_binding(dm: &DefMap, pat: &ast::Pat) -> Option<ast::Mutability> {
+pub fn pat_contains_ref_binding(dm: &DefMap, pat: &hir::Pat) -> Option<hir::Mutability> {
let mut result = None;
pat_bindings(dm, pat, |mode, _, _, _| {
match mode {
- ast::BindingMode::BindByRef(m) => {
+ hir::BindingMode::BindByRef(m) => {
// Pick Mutable as maximum
match result {
- None | Some(ast::MutImmutable) => result = Some(m),
+ None | Some(hir::MutImmutable) => result = Some(m),
_ => (),
}
}
- ast::BindingMode::BindByValue(_) => { }
+ hir::BindingMode::BindByValue(_) => { }
}
});
result
/// Checks if the patterns for this arm contain any `ref` or `ref mut`
/// bindings, and if yes wether its containing mutable ones or just immutables ones.
-pub fn arm_contains_ref_binding(dm: &DefMap, arm: &ast::Arm) -> Option<ast::Mutability> {
+pub fn arm_contains_ref_binding(dm: &DefMap, arm: &hir::Arm) -> Option<hir::Mutability> {
arm.pats.iter()
.filter_map(|pat| pat_contains_ref_binding(dm, pat))
.max_by(|m| match *m {
- ast::MutMutable => 1,
- ast::MutImmutable => 0,
+ hir::MutMutable => 1,
+ hir::MutImmutable => 0,
})
}
/// Checks if the pattern contains any patterns that bind something to
/// an ident or wildcard, e.g. `foo`, or `Foo(_)`, `foo @ Bar(..)`,
-pub fn pat_contains_bindings_or_wild(dm: &DefMap, pat: &ast::Pat) -> bool {
+pub fn pat_contains_bindings_or_wild(dm: &DefMap, pat: &hir::Pat) -> bool {
let mut contains_bindings = false;
walk_pat(pat, |p| {
if pat_is_binding_or_wild(dm, p) {
contains_bindings
}
-pub fn simple_identifier<'a>(pat: &'a ast::Pat) -> Option<&'a ast::Ident> {
+pub fn simple_name<'a>(pat: &'a hir::Pat) -> Option<ast::Name> {
match pat.node {
- ast::PatIdent(ast::BindByValue(_), ref path1, None) => {
- Some(&path1.node)
+ hir::PatIdent(hir::BindByValue(_), ref path1, None) => {
+ Some(path1.node.name)
}
_ => {
None
}
}
-pub fn def_to_path(tcx: &ty::ctxt, id: ast::DefId) -> ast::Path {
- ty::with_path(tcx, id, |path| ast::Path {
+pub fn def_to_path(tcx: &ty::ctxt, id: DefId) -> hir::Path {
+ tcx.with_path(id, |path| hir::Path {
global: false,
- segments: path.last().map(|elem| ast::PathSegment {
+ segments: path.last().map(|elem| hir::PathSegment {
identifier: ast::Ident::new(elem.name()),
- parameters: ast::PathParameters::none(),
+ parameters: hir::PathParameters::none(),
}).into_iter().collect(),
span: DUMMY_SP,
})
}
/// Return variants that are necessary to exist for the pattern to match.
-pub fn necessary_variants(dm: &DefMap, pat: &ast::Pat) -> Vec<ast::NodeId> {
+pub fn necessary_variants(dm: &DefMap, pat: &hir::Pat) -> Vec<ast::NodeId> {
let mut variants = vec![];
walk_pat(pat, |p| {
match p.node {
- ast::PatEnum(_, _) |
- ast::PatIdent(_, _, None) |
- ast::PatStruct(..) => {
+ hir::PatEnum(_, _) |
+ hir::PatIdent(_, _, None) |
+ hir::PatStruct(..) => {
match dm.borrow().get(&p.id) {
Some(&PathResolution { base_def: DefVariant(_, id, _), .. }) => {
variants.push(id.node);