rust/src/libsyntax/ast_util.rs

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// Copyright 2012 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 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
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use ast::*;
use ast;
use ast_util;
use codemap::{span, dummy_sp};
use opt_vec;
use parse::token;
use visit;
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use std::hashmap::HashMap;
use std::int;
use std::local_data;
use std::num;
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use std::option;
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pub fn path_name_i(idents: &[ident]) -> ~str {
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// FIXME: Bad copies (#2543 -- same for everything else that says "bad")
idents.map(|i| token::interner_get(i.name)).connect("::")
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}
pub fn path_to_ident(p: &Path) -> ident {
*p.idents.last()
}
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pub fn local_def(id: NodeId) -> def_id {
ast::def_id { crate: LOCAL_CRATE, node: id }
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}
pub fn is_local(did: ast::def_id) -> bool { did.crate == LOCAL_CRATE }
pub fn stmt_id(s: &stmt) -> NodeId {
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match s.node {
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stmt_decl(_, id) => id,
stmt_expr(_, id) => id,
stmt_semi(_, id) => id,
stmt_mac(*) => fail!("attempted to analyze unexpanded stmt")
}
}
pub fn variant_def_ids(d: def) -> Option<(def_id, def_id)> {
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match d {
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def_variant(enum_id, var_id) => {
Some((enum_id, var_id))
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}
_ => None
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}
}
pub fn def_id_of_def(d: def) -> def_id {
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match d {
def_fn(id, _) | def_static_method(id, _, _) | def_mod(id) |
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def_foreign_mod(id) | def_static(id, _) |
def_variant(_, id) | def_ty(id) | def_ty_param(id, _) |
def_use(id) | def_struct(id) | def_trait(id) | def_method(id, _) => {
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id
}
def_arg(id, _) | def_local(id, _) | def_self(id, _) | def_self_ty(id)
| def_upvar(id, _, _, _) | def_binding(id, _) | def_region(id)
| def_typaram_binder(id) | def_label(id) => {
local_def(id)
}
def_prim_ty(_) => fail!()
}
}
pub fn binop_to_str(op: binop) -> ~str {
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match op {
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add => return ~"+",
subtract => return ~"-",
mul => return ~"*",
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div => return ~"/",
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rem => return ~"%",
and => return ~"&&",
or => return ~"||",
bitxor => return ~"^",
bitand => return ~"&",
bitor => return ~"|",
shl => return ~"<<",
shr => return ~">>",
eq => return ~"==",
lt => return ~"<",
le => return ~"<=",
ne => return ~"!=",
ge => return ~">=",
gt => return ~">"
}
}
pub fn binop_to_method_name(op: binop) -> Option<~str> {
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match op {
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add => return Some(~"add"),
subtract => return Some(~"sub"),
mul => return Some(~"mul"),
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div => return Some(~"div"),
rem => return Some(~"rem"),
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bitxor => return Some(~"bitxor"),
bitand => return Some(~"bitand"),
bitor => return Some(~"bitor"),
shl => return Some(~"shl"),
shr => return Some(~"shr"),
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lt => return Some(~"lt"),
le => return Some(~"le"),
ge => return Some(~"ge"),
gt => return Some(~"gt"),
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eq => return Some(~"eq"),
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ne => return Some(~"ne"),
and | or => return None
}
}
pub fn lazy_binop(b: binop) -> bool {
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match b {
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and => true,
or => true,
_ => false
}
}
pub fn is_shift_binop(b: binop) -> bool {
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match b {
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shl => true,
shr => true,
_ => false
}
}
pub fn unop_to_str(op: unop) -> ~str {
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match op {
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box(mt) => if mt == m_mutbl { ~"@mut " } else { ~"@" },
uniq => ~"~",
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deref => ~"*",
not => ~"!",
neg => ~"-"
}
}
pub fn is_path(e: @expr) -> bool {
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return match e.node { expr_path(_) => true, _ => false };
}
pub fn int_ty_to_str(t: int_ty) -> ~str {
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match t {
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ty_char => ~"u8", // ???
ty_i => ~"",
ty_i8 => ~"i8",
ty_i16 => ~"i16",
ty_i32 => ~"i32",
ty_i64 => ~"i64"
}
}
pub fn int_ty_max(t: int_ty) -> u64 {
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match t {
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ty_i8 => 0x80u64,
ty_i16 => 0x8000u64,
ty_i | ty_char | ty_i32 => 0x80000000u64, // actually ni about ty_i
ty_i64 => 0x8000000000000000u64
}
}
pub fn uint_ty_to_str(t: uint_ty) -> ~str {
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match t {
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ty_u => ~"u",
ty_u8 => ~"u8",
ty_u16 => ~"u16",
ty_u32 => ~"u32",
ty_u64 => ~"u64"
}
}
pub fn uint_ty_max(t: uint_ty) -> u64 {
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match t {
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ty_u8 => 0xffu64,
ty_u16 => 0xffffu64,
ty_u | ty_u32 => 0xffffffffu64, // actually ni about ty_u
ty_u64 => 0xffffffffffffffffu64
}
}
pub fn float_ty_to_str(t: float_ty) -> ~str {
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match t { ty_f => ~"f", ty_f32 => ~"f32", ty_f64 => ~"f64" }
}
pub fn is_call_expr(e: @expr) -> bool {
match e.node { expr_call(*) => true, _ => false }
}
pub fn block_from_expr(e: @expr) -> Block {
let mut blk = default_block(~[], option::Some::<@expr>(e), e.id);
blk.span = e.span;
return blk;
}
pub fn default_block(
stmts1: ~[@stmt],
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expr1: Option<@expr>,
id1: NodeId
) -> Block {
ast::Block {
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view_items: ~[],
stmts: stmts1,
expr: expr1,
id: id1,
rules: DefaultBlock,
span: dummy_sp(),
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}
}
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pub fn ident_to_path(s: span, i: ident) -> Path {
ast::Path { span: s,
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global: false,
idents: ~[i],
rp: None,
types: ~[] }
}
pub fn ident_to_pat(id: NodeId, s: span, i: ident) -> @pat {
@ast::pat { id: id,
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node: pat_ident(bind_infer, ident_to_path(s, i), None),
span: s }
}
pub fn is_unguarded(a: &arm) -> bool {
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match a.guard {
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None => true,
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_ => false
}
}
pub fn unguarded_pat(a: &arm) -> Option<~[@pat]> {
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if is_unguarded(a) {
Some(/* FIXME (#2543) */ a.pats.clone())
} else {
None
}
}
pub fn public_methods(ms: ~[@method]) -> ~[@method] {
do ms.consume_iter().filter |m| {
match m.vis {
public => true,
_ => false
}
}.collect()
}
// extract a TypeMethod from a trait_method. if the trait_method is
// a default, pull out the useful fields to make a TypeMethod
pub fn trait_method_to_ty_method(method: &trait_method) -> TypeMethod {
match *method {
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required(ref m) => (*m).clone(),
provided(ref m) => {
TypeMethod {
ident: m.ident,
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attrs: m.attrs.clone(),
purity: m.purity,
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decl: m.decl.clone(),
generics: m.generics.clone(),
explicit_self: m.explicit_self,
id: m.id,
span: m.span,
}
}
}
}
pub fn split_trait_methods(trait_methods: &[trait_method])
-> (~[TypeMethod], ~[@method]) {
let mut reqd = ~[];
let mut provd = ~[];
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foreach trt_method in trait_methods.iter() {
match *trt_method {
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required(ref tm) => reqd.push((*tm).clone()),
provided(m) => provd.push(m)
}
};
(reqd, provd)
}
pub fn struct_field_visibility(field: ast::struct_field) -> visibility {
match field.node.kind {
ast::named_field(_, visibility) => visibility,
ast::unnamed_field => ast::public
}
}
pub trait inlined_item_utils {
fn ident(&self) -> ident;
fn id(&self) -> ast::NodeId;
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fn accept<E: Clone>(&self, e: E, v: visit::vt<E>);
}
impl inlined_item_utils for inlined_item {
fn ident(&self) -> ident {
match *self {
ii_item(i) => i.ident,
ii_foreign(i) => i.ident,
ii_method(_, _, m) => m.ident,
}
}
fn id(&self) -> ast::NodeId {
match *self {
ii_item(i) => i.id,
ii_foreign(i) => i.id,
ii_method(_, _, m) => m.id,
}
}
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fn accept<E: Clone>(&self, e: E, v: visit::vt<E>) {
match *self {
ii_item(i) => (v.visit_item)(i, (e, v)),
ii_foreign(i) => (v.visit_foreign_item)(i, (e, v)),
ii_method(_, _, m) => visit::visit_method_helper(m, (e, v)),
}
}
}
/* True if d is either a def_self, or a chain of def_upvars
referring to a def_self */
pub fn is_self(d: ast::def) -> bool {
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match d {
def_self(*) => true,
def_upvar(_, d, _, _) => is_self(*d),
_ => false
}
}
/// Maps a binary operator to its precedence
pub fn operator_prec(op: ast::binop) -> uint {
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match op {
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mul | div | rem => 12u,
// 'as' sits between here with 11
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add | subtract => 10u,
shl | shr => 9u,
bitand => 8u,
bitxor => 7u,
bitor => 6u,
lt | le | ge | gt => 4u,
eq | ne => 3u,
and => 2u,
or => 1u
}
}
/// Precedence of the `as` operator, which is a binary operator
/// not appearing in the prior table.
pub static as_prec: uint = 11u;
pub fn empty_generics() -> Generics {
Generics {lifetimes: opt_vec::Empty,
ty_params: opt_vec::Empty}
}
// ______________________________________________________________________
// Enumerating the IDs which appear in an AST
#[deriving(Encodable, Decodable)]
pub struct id_range {
min: NodeId,
max: NodeId,
}
impl id_range {
pub fn max() -> id_range {
id_range {
min: int::max_value,
max: int::min_value,
}
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}
pub fn empty(&self) -> bool {
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self.min >= self.max
}
pub fn add(&mut self, id: NodeId) {
self.min = num::min(self.min, id);
self.max = num::max(self.max, id + 1);
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}
}
pub fn id_visitor<T: Clone>(vfn: @fn(NodeId, T)) -> visit::vt<T> {
let visit_generics: @fn(&Generics, T) = |generics, t| {
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foreach p in generics.ty_params.iter() {
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vfn(p.id, t.clone());
}
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foreach p in generics.lifetimes.iter() {
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vfn(p.id, t.clone());
}
};
visit::mk_vt(@visit::Visitor {
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visit_mod: |m, sp, id, (t, vt): (T, visit::vt<T>)| {
vfn(id, t.clone());
visit::visit_mod(m, sp, id, (t, vt));
},
visit_view_item: |vi, (t, vt)| {
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match vi.node {
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view_item_extern_mod(_, _, id) => vfn(id, t.clone()),
view_item_use(ref vps) => {
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foreach vp in vps.iter() {
match vp.node {
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view_path_simple(_, _, id) => vfn(id, t.clone()),
view_path_glob(_, id) => vfn(id, t.clone()),
view_path_list(_, ref paths, id) => {
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vfn(id, t.clone());
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foreach p in paths.iter() {
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vfn(p.node.id, t.clone());
}
}
}
}
}
}
visit::visit_view_item(vi, (t, vt));
},
visit_foreign_item: |ni, (t, vt)| {
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vfn(ni.id, t.clone());
visit::visit_foreign_item(ni, (t, vt));
},
visit_item: |i, (t, vt)| {
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vfn(i.id, t.clone());
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match i.node {
item_enum(ref enum_definition, _) =>
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foreach v in (*enum_definition).variants.iter() {
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vfn(v.node.id, t.clone());
},
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_ => ()
}
visit::visit_item(i, (t, vt));
},
visit_local: |l, (t, vt)| {
vfn(l.id, t.clone());
visit::visit_local(l, (t, vt));
},
visit_block: |b, (t, vt)| {
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vfn(b.id, t.clone());
visit::visit_block(b, (t, vt));
},
visit_stmt: |s, (t, vt)| {
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vfn(ast_util::stmt_id(s), t.clone());
visit::visit_stmt(s, (t, vt));
},
visit_pat: |p, (t, vt)| {
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vfn(p.id, t.clone());
visit::visit_pat(p, (t, vt));
},
visit_expr: |e, (t, vt)| {
{
let r = e.get_callee_id();
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foreach callee_id in r.iter() {
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vfn(*callee_id, t.clone());
}
}
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vfn(e.id, t.clone());
visit::visit_expr(e, (t, vt));
},
visit_ty: |ty, (t, vt)| {
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vfn(ty.id, t.clone());
match ty.node {
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ty_path(_, _, id) => vfn(id, t.clone()),
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_ => { /* fall through */ }
}
visit::visit_ty(ty, (t, vt));
},
visit_generics: |generics, (t, vt)| {
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visit_generics(generics, t.clone());
visit::visit_generics(generics, (t, vt));
},
visit_fn: |fk, d, a, b, id, (t, vt)| {
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vfn(id, t.clone());
match *fk {
visit::fk_item_fn(_, generics, _, _) => {
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visit_generics(generics, t.clone());
}
visit::fk_method(_, generics, m) => {
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vfn(m.self_id, t.clone());
visit_generics(generics, t.clone());
}
visit::fk_anon(_) |
visit::fk_fn_block => {
}
}
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foreach arg in d.inputs.iter() {
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vfn(arg.id, t.clone())
}
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visit::visit_fn(fk, d, a, b, id, (t.clone(), vt));
},
visit_struct_field: |f, (t, vt)| {
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vfn(f.node.id, t.clone());
visit::visit_struct_field(f, (t, vt));
},
.. *visit::default_visitor()
})
}
pub fn visit_ids_for_inlined_item(item: &inlined_item, vfn: @fn(NodeId)) {
item.accept((), id_visitor(|id, ()| vfn(id)));
}
pub fn compute_id_range(visit_ids_fn: &fn(@fn(NodeId))) -> id_range {
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let result = @mut id_range::max();
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do visit_ids_fn |id| {
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result.add(id);
}
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*result
}
pub fn compute_id_range_for_inlined_item(item: &inlined_item) -> id_range {
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compute_id_range(|f| visit_ids_for_inlined_item(item, f))
}
pub fn is_item_impl(item: @ast::item) -> bool {
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match item.node {
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item_impl(*) => true,
_ => false
}
}
pub fn walk_pat(pat: @pat, it: &fn(@pat) -> bool) -> bool {
if !it(pat) {
return false;
}
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match pat.node {
pat_ident(_, _, Some(p)) => walk_pat(p, it),
pat_struct(_, ref fields, _) => {
fields.iter().advance(|f| walk_pat(f.pat, |p| it(p)))
}
pat_enum(_, Some(ref s)) | pat_tup(ref s) => {
s.iter().advance(|&p| walk_pat(p, |p| it(p)))
}
pat_box(s) | pat_uniq(s) | pat_region(s) => {
walk_pat(s, it)
}
pat_vec(ref before, ref slice, ref after) => {
before.iter().advance(|&p| walk_pat(p, |p| it(p))) &&
slice.iter().advance(|&p| walk_pat(p, |p| it(p))) &&
after.iter().advance(|&p| walk_pat(p, |p| it(p)))
}
pat_wild | pat_lit(_) | pat_range(_, _) | pat_ident(_, _, _) |
pat_enum(_, _) => {
true
}
}
}
pub trait EachViewItem {
pub fn each_view_item(&self, f: @fn(&ast::view_item) -> bool) -> bool;
}
impl EachViewItem for ast::Crate {
fn each_view_item(&self, f: @fn(&ast::view_item) -> bool) -> bool {
let broke = @mut false;
let vtor: visit::vt<()> = visit::mk_simple_visitor(@visit::SimpleVisitor {
visit_view_item: |vi| { *broke = f(vi); }, ..*visit::default_simple_visitor()
});
visit::visit_crate(self, ((), vtor));
true
}
}
pub fn view_path_id(p: &view_path) -> NodeId {
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match p.node {
view_path_simple(_, _, id) |
view_path_glob(_, id) |
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view_path_list(_, _, id) => id
}
}
/// Returns true if the given struct def is tuple-like; i.e. that its fields
/// are unnamed.
pub fn struct_def_is_tuple_like(struct_def: &ast::struct_def) -> bool {
struct_def.ctor_id.is_some()
}
pub fn visibility_to_privacy(visibility: visibility) -> Privacy {
match visibility {
public => Public,
inherited | private => Private
}
}
pub fn variant_visibility_to_privacy(visibility: visibility,
enclosing_is_public: bool)
-> Privacy {
if enclosing_is_public {
match visibility {
public | inherited => Public,
private => Private
}
} else {
visibility_to_privacy(visibility)
}
}
#[deriving(Eq)]
pub enum Privacy {
Private,
Public
}
/// Returns true if the given pattern consists solely of an identifier
/// and false otherwise.
pub fn pat_is_ident(pat: @ast::pat) -> bool {
match pat.node {
ast::pat_ident(*) => true,
_ => false,
}
}
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// HYGIENE FUNCTIONS
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/// Construct an identifier with the given name and an empty context:
pub fn new_ident(name: Name) -> ident { ident {name: name, ctxt: 0}}
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/// Extend a syntax context with a given mark
pub fn new_mark(m:Mrk, tail:SyntaxContext) -> SyntaxContext {
new_mark_internal(m,tail,get_sctable())
}
// Extend a syntax context with a given mark and table
// FIXME #4536 : currently pub to allow testing
pub fn new_mark_internal(m:Mrk, tail:SyntaxContext,table:&mut SCTable)
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-> SyntaxContext {
let key = (tail,m);
// FIXME #5074 : can't use more natural style because we're missing
// flow-sensitivity. Results in two lookups on a hash table hit.
// also applies to new_rename_internal, below.
// let try_lookup = table.mark_memo.find(&key);
match table.mark_memo.contains_key(&key) {
false => {
let new_idx = idx_push(&mut table.table,Mark(m,tail));
table.mark_memo.insert(key,new_idx);
new_idx
}
true => {
match table.mark_memo.find(&key) {
None => fail!(~"internal error: key disappeared 2013042901"),
Some(idxptr) => {*idxptr}
}
}
}
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}
/// Extend a syntax context with a given rename
pub fn new_rename(id:ident, to:Name, tail:SyntaxContext) -> SyntaxContext {
new_rename_internal(id, to, tail, get_sctable())
}
// Extend a syntax context with a given rename and sctable
// FIXME #4536 : currently pub to allow testing
pub fn new_rename_internal(id:ident, to:Name, tail:SyntaxContext, table: &mut SCTable)
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-> SyntaxContext {
let key = (tail,id,to);
// FIXME #5074
//let try_lookup = table.rename_memo.find(&key);
match table.rename_memo.contains_key(&key) {
false => {
let new_idx = idx_push(&mut table.table,Rename(id,to,tail));
table.rename_memo.insert(key,new_idx);
new_idx
}
true => {
match table.rename_memo.find(&key) {
None => fail!(~"internal error: key disappeared 2013042902"),
Some(idxptr) => {*idxptr}
}
}
}
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}
/// Make a fresh syntax context table with EmptyCtxt in slot zero
/// and IllegalCtxt in slot one.
// FIXME #4536 : currently pub to allow testing
pub fn new_sctable_internal() -> SCTable {
SCTable {
table: ~[EmptyCtxt,IllegalCtxt],
mark_memo: HashMap::new(),
rename_memo: HashMap::new()
}
}
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// fetch the SCTable from TLS, create one if it doesn't yet exist.
pub fn get_sctable() -> @mut SCTable {
static sctable_key: local_data::Key<@@mut SCTable> = &local_data::Key;
match local_data::get(sctable_key, |k| k.map(|&k| *k)) {
None => {
let new_table = @@mut new_sctable_internal();
local_data::set(sctable_key,new_table);
*new_table
},
Some(intr) => *intr
}
}
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/// Add a value to the end of a vec, return its index
fn idx_push<T>(vec: &mut ~[T], val: T) -> uint {
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vec.push(val);
vec.len() - 1
}
/// Resolve a syntax object to a name, per MTWT.
pub fn resolve(id : ident) -> Name {
resolve_internal(id, get_sctable())
}
// Resolve a syntax object to a name, per MTWT.
// FIXME #4536 : currently pub to allow testing
pub fn resolve_internal(id : ident, table : &mut SCTable) -> Name {
match table.table[id.ctxt] {
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EmptyCtxt => id.name,
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// ignore marks here:
Mark(_,subctxt) => resolve_internal(ident{name:id.name, ctxt: subctxt},table),
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// do the rename if necessary:
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Rename(ident{name,ctxt},toname,subctxt) => {
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// this could be cached or computed eagerly:
let resolvedfrom = resolve_internal(ident{name:name,ctxt:ctxt},table);
let resolvedthis = resolve_internal(ident{name:id.name,ctxt:subctxt},table);
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if ((resolvedthis == resolvedfrom)
&& (marksof(ctxt,resolvedthis,table)
== marksof(subctxt,resolvedthis,table))) {
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toname
} else {
resolvedthis
}
}
IllegalCtxt() => fail!(~"expected resolvable context, got IllegalCtxt")
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}
}
/// Compute the marks associated with a syntax context.
// it's not clear to me whether it's better to use a [] mutable
// vector or a cons-list for this.
pub fn marksof(ctxt: SyntaxContext, stopname: Name, table: &SCTable) -> ~[Mrk] {
let mut result = ~[];
let mut loopvar = ctxt;
loop {
match table.table[loopvar] {
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EmptyCtxt => {return result;},
Mark(mark,tl) => {
xorPush(&mut result,mark);
loopvar = tl;
},
Rename(_,name,tl) => {
// see MTWT for details on the purpose of the stopname.
// short version: it prevents duplication of effort.
if (name == stopname) {
return result;
} else {
loopvar = tl;
}
}
IllegalCtxt => fail!(~"expected resolvable context, got IllegalCtxt")
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}
}
}
/// Push a name... unless it matches the one on top, in which
/// case pop and discard (so two of the same marks cancel)
pub fn xorPush(marks: &mut ~[uint], mark: uint) {
if ((marks.len() > 0) && (getLast(marks) == mark)) {
marks.pop();
} else {
marks.push(mark);
}
}
// get the last element of a mutable array.
// FIXME #4903: , must be a separate procedure for now.
pub fn getLast(arr: &~[Mrk]) -> uint {
*arr.last()
}
#[cfg(test)]
mod test {
use ast::*;
use super::*;
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use std::io;
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#[test] fn xorpush_test () {
let mut s = ~[];
xorPush(&mut s,14);
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assert_eq!(s.clone(),~[14]);
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xorPush(&mut s,14);
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assert_eq!(s.clone(),~[]);
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xorPush(&mut s,14);
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assert_eq!(s.clone(),~[14]);
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xorPush(&mut s,15);
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assert_eq!(s.clone(),~[14,15]);
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xorPush (&mut s,16);
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assert_eq!(s.clone(),~[14,15,16]);
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xorPush (&mut s,16);
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assert_eq!(s.clone(),~[14,15]);
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xorPush (&mut s,15);
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assert_eq!(s.clone(),~[14]);
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}
// convert a list of uints to an @[ident]
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// (ignores the interner completely)
fn uints_to_idents (uints: &~[uint]) -> @~[ident] {
@uints.map(|u| ident {name:*u, ctxt: empty_ctxt})
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}
fn id (u : uint, s: SyntaxContext) -> ident {
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ident{name:u, ctxt: s}
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}
// because of the SCTable, I now need a tidy way of
// creating syntax objects. Sigh.
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#[deriving(Clone, Eq)]
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enum TestSC {
M(Mrk),
R(ident,Name)
}
// unfold a vector of TestSC values into a SCTable,
// returning the resulting index
fn unfold_test_sc(tscs : ~[TestSC], tail: SyntaxContext, table : &mut SCTable)
-> SyntaxContext {
tscs.rev_iter().fold(tail, |tail : SyntaxContext, tsc : &TestSC|
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{match *tsc {
M(mrk) => new_mark_internal(mrk,tail,table),
R(ident,name) => new_rename_internal(ident,name,tail,table)}})
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}
// gather a SyntaxContext back into a vector of TestSCs
fn refold_test_sc(mut sc: SyntaxContext, table : &SCTable) -> ~[TestSC] {
let mut result = ~[];
loop {
match table.table[sc] {
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EmptyCtxt => {return result;},
Mark(mrk,tail) => {
result.push(M(mrk));
sc = tail;
loop;
},
Rename(id,name,tail) => {
result.push(R(id,name));
sc = tail;
loop;
}
IllegalCtxt => fail!("expected resolvable context, got IllegalCtxt")
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}
}
}
#[test] fn test_unfold_refold(){
let mut t = new_sctable_internal();
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let test_sc = ~[M(3),R(id(101,0),14),M(9)];
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assert_eq!(unfold_test_sc(test_sc.clone(),empty_ctxt,&mut t),4);
assert_eq!(t.table[2],Mark(9,0));
assert_eq!(t.table[3],Rename(id(101,0),14,2));
assert_eq!(t.table[4],Mark(3,3));
assert_eq!(refold_test_sc(4,&t),test_sc);
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}
// extend a syntax context with a sequence of marks given
// in a vector. v[0] will be the outermost mark.
fn unfold_marks(mrks:~[Mrk],tail:SyntaxContext,table: &mut SCTable) -> SyntaxContext {
mrks.rev_iter().fold(tail, |tail:SyntaxContext, mrk:&Mrk|
{new_mark_internal(*mrk,tail,table)})
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}
#[test] fn unfold_marks_test() {
let mut t = new_sctable_internal();
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assert_eq!(unfold_marks(~[3,7],empty_ctxt,&mut t),3);
assert_eq!(t.table[2],Mark(7,0));
assert_eq!(t.table[3],Mark(3,2));
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}
#[test] fn test_marksof () {
let stopname = 242;
let name1 = 243;
let mut t = new_sctable_internal();
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assert_eq!(marksof (empty_ctxt,stopname,&t),~[]);
// FIXME #5074: ANF'd to dodge nested calls
{ let ans = unfold_marks(~[4,98],empty_ctxt,&mut t);
assert_eq! (marksof (ans,stopname,&t),~[4,98]);}
// does xoring work?
{ let ans = unfold_marks(~[5,5,16],empty_ctxt,&mut t);
assert_eq! (marksof (ans,stopname,&t), ~[16]);}
// does nested xoring work?
{ let ans = unfold_marks(~[5,10,10,5,16],empty_ctxt,&mut t);
assert_eq! (marksof (ans, stopname,&t), ~[16]);}
// rename where stop doesn't match:
{ let chain = ~[M(9),
R(id(name1,
new_mark_internal (4, empty_ctxt,&mut t)),
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100101102),
M(14)];
let ans = unfold_test_sc(chain,empty_ctxt,&mut t);
assert_eq! (marksof (ans, stopname, &t), ~[9,14]);}
// rename where stop does match
{ let name1sc = new_mark_internal(4, empty_ctxt, &mut t);
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let chain = ~[M(9),
R(id(name1, name1sc),
stopname),
M(14)];
let ans = unfold_test_sc(chain,empty_ctxt,&mut t);
assert_eq! (marksof (ans, stopname, &t), ~[9]); }
}
#[test] fn resolve_tests () {
let a = 40;
let mut t = new_sctable_internal();
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// - ctxt is MT
assert_eq!(resolve_internal(id(a,empty_ctxt),&mut t),a);
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// - simple ignored marks
{ let sc = unfold_marks(~[1,2,3],empty_ctxt,&mut t);
assert_eq!(resolve_internal(id(a,sc),&mut t),a);}
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// - orthogonal rename where names don't match
{ let sc = unfold_test_sc(~[R(id(50,empty_ctxt),51),M(12)],empty_ctxt,&mut t);
assert_eq!(resolve_internal(id(a,sc),&mut t),a);}
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// - rename where names do match, but marks don't
{ let sc1 = new_mark_internal(1,empty_ctxt,&mut t);
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let sc = unfold_test_sc(~[R(id(a,sc1),50),
M(1),
M(2)],
empty_ctxt,&mut t);
assert_eq!(resolve_internal(id(a,sc),&mut t), a);}
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// - rename where names and marks match
{ let sc1 = unfold_test_sc(~[M(1),M(2)],empty_ctxt,&mut t);
let sc = unfold_test_sc(~[R(id(a,sc1),50),M(1),M(2)],empty_ctxt,&mut t);
assert_eq!(resolve_internal(id(a,sc),&mut t), 50); }
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// - rename where names and marks match by literal sharing
{ let sc1 = unfold_test_sc(~[M(1),M(2)],empty_ctxt,&mut t);
let sc = unfold_test_sc(~[R(id(a,sc1),50)],sc1,&mut t);
assert_eq!(resolve_internal(id(a,sc),&mut t), 50); }
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// - two renames of the same var.. can only happen if you use
// local-expand to prevent the inner binding from being renamed
// during the rename-pass caused by the first:
io::println("about to run bad test");
{ let sc = unfold_test_sc(~[R(id(a,empty_ctxt),50),
R(id(a,empty_ctxt),51)],
empty_ctxt,&mut t);
assert_eq!(resolve_internal(id(a,sc),&mut t), 51); }
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// the simplest double-rename:
{ let a_to_a50 = new_rename_internal(id(a,empty_ctxt),50,empty_ctxt,&mut t);
let a50_to_a51 = new_rename_internal(id(a,a_to_a50),51,a_to_a50,&mut t);
assert_eq!(resolve_internal(id(a,a50_to_a51),&mut t),51);
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// mark on the outside doesn't stop rename:
let sc = new_mark_internal(9,a50_to_a51,&mut t);
assert_eq!(resolve_internal(id(a,sc),&mut t),51);
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// but mark on the inside does:
let a50_to_a51_b = unfold_test_sc(~[R(id(a,a_to_a50),51),
M(9)],
a_to_a50,
&mut t);
assert_eq!(resolve_internal(id(a,a50_to_a51_b),&mut t),50);}
}
#[test] fn hashing_tests () {
let mut t = new_sctable_internal();
assert_eq!(new_mark_internal(12,empty_ctxt,&mut t),2);
assert_eq!(new_mark_internal(13,empty_ctxt,&mut t),3);
// using the same one again should result in the same index:
assert_eq!(new_mark_internal(12,empty_ctxt,&mut t),2);
// I'm assuming that the rename table will behave the same....
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}
}