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rust/src/librustc/metadata/tyencode.rs
Eduard Burtescu 15ba0c310a Demote self to an (almost) regular argument and remove the env param. 
Fixes #10667 and closes #10259.
2014-01-27 14:31:24 +02:00

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Rust
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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.
// Type encoding
use std::cell::RefCell;
use std::hashmap::HashMap;
use std::io;
use std::io::MemWriter;
use std::str;
use std::fmt;
use middle::ty::param_ty;
use middle::ty;
use syntax::abi::AbiSet;
use syntax::ast;
use syntax::ast::*;
use syntax::diagnostic::SpanHandler;
use syntax::print::pprust::*;
macro_rules! mywrite( ($wr:expr, $($arg:tt)*) => (
format_args!(|a| { mywrite($wr, a) }, $($arg)*)
) )
pub struct ctxt {
diag: @SpanHandler,
// Def -> str Callback:
ds: extern "Rust" fn(DefId) -> ~str,
// The type context.
tcx: ty::ctxt,
abbrevs: abbrev_ctxt
}
// Compact string representation for ty.t values. API ty_str & parse_from_str.
// Extra parameters are for converting to/from def_ids in the string rep.
// Whatever format you choose should not contain pipe characters.
pub struct ty_abbrev {
pos: uint,
len: uint,
s: @str
}
pub enum abbrev_ctxt {
ac_no_abbrevs,
ac_use_abbrevs(@RefCell<HashMap<ty::t, ty_abbrev>>),
}
fn mywrite(w: &mut MemWriter, fmt: &fmt::Arguments) {
fmt::write(&mut *w as &mut io::Writer, fmt);
}
pub fn enc_ty(w: &mut MemWriter, cx: @ctxt, t: ty::t) {
match cx.abbrevs {
ac_no_abbrevs => {
let result_str_opt;
{
let short_names_cache = cx.tcx.short_names_cache.borrow();
result_str_opt = short_names_cache.get()
.find(&t)
.map(|result| *result);
}
let result_str = match result_str_opt {
Some(s) => s,
None => {
let wr = &mut MemWriter::new();
enc_sty(wr, cx, &ty::get(t).sty);
let s = str::from_utf8(wr.get_ref()).unwrap().to_managed();
let mut short_names_cache = cx.tcx
.short_names_cache
.borrow_mut();
short_names_cache.get().insert(t, s);
s
}
};
w.write(result_str.as_bytes());
}
ac_use_abbrevs(abbrevs) => {
{
let mut abbrevs = abbrevs.borrow_mut();
match abbrevs.get().find(&t) {
Some(a) => { w.write(a.s.as_bytes()); return; }
None => {}
}
}
let pos = w.tell();
enc_sty(w, cx, &ty::get(t).sty);
let end = w.tell();
let len = end - pos;
fn estimate_sz(u: u64) -> u64 {
let mut n = u;
let mut len = 0;
while n != 0 { len += 1; n = n >> 4; }
return len;
}
let abbrev_len = 3 + estimate_sz(pos) + estimate_sz(len);
if abbrev_len < len {
// I.e. it's actually an abbreviation.
let s = format!("\\#{:x}:{:x}\\#", pos, len).to_managed();
let a = ty_abbrev { pos: pos as uint,
len: len as uint,
s: s };
{
let mut abbrevs = abbrevs.borrow_mut();
abbrevs.get().insert(t, a);
}
}
return;
}
}
}
fn enc_mutability(w: &mut MemWriter, mt: ast::Mutability) {
match mt {
MutImmutable => (),
MutMutable => mywrite!(w, "m"),
}
}
fn enc_mt(w: &mut MemWriter, cx: @ctxt, mt: ty::mt) {
enc_mutability(w, mt.mutbl);
enc_ty(w, cx, mt.ty);
}
fn enc_opt<T>(w: &mut MemWriter, t: Option<T>, enc_f: |&mut MemWriter, T|) {
match t {
None => mywrite!(w, "n"),
Some(v) => {
mywrite!(w, "s");
enc_f(w, v);
}
}
}
pub fn enc_substs(w: &mut MemWriter, cx: @ctxt, substs: &ty::substs) {
enc_region_substs(w, cx, &substs.regions);
enc_opt(w, substs.self_ty, |w, t| enc_ty(w, cx, t));
mywrite!(w, "[");
for t in substs.tps.iter() { enc_ty(w, cx, *t); }
mywrite!(w, "]");
}
fn enc_region_substs(w: &mut MemWriter, cx: @ctxt, substs: &ty::RegionSubsts) {
match *substs {
ty::ErasedRegions => {
mywrite!(w, "e");
}
ty::NonerasedRegions(ref regions) => {
mywrite!(w, "n");
for &r in regions.iter() {
enc_region(w, cx, r);
}
mywrite!(w, ".");
}
}
}
fn enc_region(w: &mut MemWriter, cx: @ctxt, r: ty::Region) {
match r {
ty::ReLateBound(id, br) => {
mywrite!(w, "b[{}|", id);
enc_bound_region(w, cx, br);
mywrite!(w, "]");
}
ty::ReEarlyBound(node_id, index, ident) => {
mywrite!(w, "B[{}|{}|{}]",
node_id,
index,
cx.tcx.sess.str_of(ident));
}
ty::ReFree(ref fr) => {
mywrite!(w, "f[{}|", fr.scope_id);
enc_bound_region(w, cx, fr.bound_region);
mywrite!(w, "]");
}
ty::ReScope(nid) => {
mywrite!(w, "s{}|", nid);
}
ty::ReStatic => {
mywrite!(w, "t");
}
ty::ReEmpty => {
mywrite!(w, "e");
}
ty::ReInfer(_) => {
// these should not crop up after typeck
cx.diag.handler().bug("Cannot encode region variables");
}
}
}
fn enc_bound_region(w: &mut MemWriter, cx: @ctxt, br: ty::BoundRegion) {
match br {
ty::BrAnon(idx) => {
mywrite!(w, "a{}|", idx);
}
ty::BrNamed(d, s) => {
mywrite!(w, "[{}|{}]",
(cx.ds)(d),
cx.tcx.sess.str_of(s));
}
ty::BrFresh(id) => {
mywrite!(w, "f{}|", id);
}
}
}
pub fn enc_vstore(w: &mut MemWriter, cx: @ctxt, v: ty::vstore) {
mywrite!(w, "/");
match v {
ty::vstore_fixed(u) => mywrite!(w, "{}|", u),
ty::vstore_uniq => mywrite!(w, "~"),
ty::vstore_box => mywrite!(w, "@"),
ty::vstore_slice(r) => {
mywrite!(w, "&");
enc_region(w, cx, r);
}
}
}
pub fn enc_trait_ref(w: &mut MemWriter, cx: @ctxt, s: &ty::TraitRef) {
mywrite!(w, "{}|", (cx.ds)(s.def_id));
enc_substs(w, cx, &s.substs);
}
pub fn enc_trait_store(w: &mut MemWriter, cx: @ctxt, s: ty::TraitStore) {
match s {
ty::UniqTraitStore => mywrite!(w, "~"),
ty::BoxTraitStore => mywrite!(w, "@"),
ty::RegionTraitStore(re) => {
mywrite!(w, "&");
enc_region(w, cx, re);
}
}
}
fn enc_sty(w: &mut MemWriter, cx: @ctxt, st: &ty::sty) {
match *st {
ty::ty_nil => mywrite!(w, "n"),
ty::ty_bot => mywrite!(w, "z"),
ty::ty_bool => mywrite!(w, "b"),
ty::ty_char => mywrite!(w, "c"),
ty::ty_int(t) => {
match t {
TyI => mywrite!(w, "i"),
TyI8 => mywrite!(w, "MB"),
TyI16 => mywrite!(w, "MW"),
TyI32 => mywrite!(w, "ML"),
TyI64 => mywrite!(w, "MD")
}
}
ty::ty_uint(t) => {
match t {
TyU => mywrite!(w, "u"),
TyU8 => mywrite!(w, "Mb"),
TyU16 => mywrite!(w, "Mw"),
TyU32 => mywrite!(w, "Ml"),
TyU64 => mywrite!(w, "Md")
}
}
ty::ty_float(t) => {
match t {
TyF32 => mywrite!(w, "Mf"),
TyF64 => mywrite!(w, "MF"),
}
}
ty::ty_enum(def, ref substs) => {
mywrite!(w, "t[{}|", (cx.ds)(def));
enc_substs(w, cx, substs);
mywrite!(w, "]");
}
ty::ty_trait(def, ref substs, store, mt, bounds) => {
mywrite!(w, "x[{}|", (cx.ds)(def));
enc_substs(w, cx, substs);
enc_trait_store(w, cx, store);
enc_mutability(w, mt);
let bounds = ty::ParamBounds {builtin_bounds: bounds,
trait_bounds: ~[]};
enc_bounds(w, cx, &bounds);
mywrite!(w, "]");
}
ty::ty_tup(ref ts) => {
mywrite!(w, "T[");
for t in ts.iter() { enc_ty(w, cx, *t); }
mywrite!(w, "]");
}
ty::ty_box(typ) => { mywrite!(w, "@"); enc_ty(w, cx, typ); }
ty::ty_uniq(typ) => { mywrite!(w, "~"); enc_ty(w, cx, typ); }
ty::ty_ptr(mt) => { mywrite!(w, "*"); enc_mt(w, cx, mt); }
ty::ty_rptr(r, mt) => {
mywrite!(w, "&");
enc_region(w, cx, r);
enc_mt(w, cx, mt);
}
ty::ty_vec(mt, v) => {
mywrite!(w, "V");
enc_mt(w, cx, mt);
enc_vstore(w, cx, v);
}
ty::ty_str(v) => {
mywrite!(w, "v");
enc_vstore(w, cx, v);
}
ty::ty_unboxed_vec(mt) => { mywrite!(w, "U"); enc_mt(w, cx, mt); }
ty::ty_closure(ref f) => {
mywrite!(w, "f");
enc_closure_ty(w, cx, f);
}
ty::ty_bare_fn(ref f) => {
mywrite!(w, "F");
enc_bare_fn_ty(w, cx, f);
}
ty::ty_infer(_) => {
cx.diag.handler().bug("Cannot encode inference variable types");
}
ty::ty_param(param_ty {idx: id, def_id: did}) => {
mywrite!(w, "p{}|{}", (cx.ds)(did), id);
}
ty::ty_self(did) => {
mywrite!(w, "s{}|", (cx.ds)(did));
}
ty::ty_type => mywrite!(w, "Y"),
ty::ty_struct(def, ref substs) => {
mywrite!(w, "a[{}|", (cx.ds)(def));
enc_substs(w, cx, substs);
mywrite!(w, "]");
}
ty::ty_err => fail!("Shouldn't encode error type")
}
}
fn enc_sigil(w: &mut MemWriter, sigil: Sigil) {
match sigil {
ManagedSigil => mywrite!(w, "@"),
OwnedSigil => mywrite!(w, "~"),
BorrowedSigil => mywrite!(w, "&"),
}
}
fn enc_purity(w: &mut MemWriter, p: Purity) {
match p {
ImpureFn => mywrite!(w, "i"),
UnsafeFn => mywrite!(w, "u"),
ExternFn => mywrite!(w, "c")
}
}
fn enc_abi_set(w: &mut MemWriter, abis: AbiSet) {
mywrite!(w, "[");
abis.each(|abi| {
mywrite!(w, "{},", abi.name());
true
});
mywrite!(w, "]")
}
fn enc_onceness(w: &mut MemWriter, o: Onceness) {
match o {
Once => mywrite!(w, "o"),
Many => mywrite!(w, "m")
}
}
pub fn enc_bare_fn_ty(w: &mut MemWriter, cx: @ctxt, ft: &ty::BareFnTy) {
enc_purity(w, ft.purity);
enc_abi_set(w, ft.abis);
enc_fn_sig(w, cx, &ft.sig);
}
fn enc_closure_ty(w: &mut MemWriter, cx: @ctxt, ft: &ty::ClosureTy) {
enc_sigil(w, ft.sigil);
enc_purity(w, ft.purity);
enc_onceness(w, ft.onceness);
enc_region(w, cx, ft.region);
let bounds = ty::ParamBounds {builtin_bounds: ft.bounds,
trait_bounds: ~[]};
enc_bounds(w, cx, &bounds);
enc_fn_sig(w, cx, &ft.sig);
}
fn enc_fn_sig(w: &mut MemWriter, cx: @ctxt, fsig: &ty::FnSig) {
mywrite!(w, "[{}|", fsig.binder_id);
for ty in fsig.inputs.iter() {
enc_ty(w, cx, *ty);
}
mywrite!(w, "]");
if fsig.variadic {
mywrite!(w, "V");
} else {
mywrite!(w, "N");
}
enc_ty(w, cx, fsig.output);
}
fn enc_bounds(w: &mut MemWriter, cx: @ctxt, bs: &ty::ParamBounds) {
for bound in bs.builtin_bounds.iter() {
match bound {
ty::BoundSend => mywrite!(w, "S"),
ty::BoundFreeze => mywrite!(w, "K"),
ty::BoundStatic => mywrite!(w, "O"),
ty::BoundSized => mywrite!(w, "Z"),
ty::BoundPod => mywrite!(w, "P"),
}
}
for &tp in bs.trait_bounds.iter() {
mywrite!(w, "I");
enc_trait_ref(w, cx, tp);
}
mywrite!(w, ".");
}
pub fn enc_type_param_def(w: &mut MemWriter, cx: @ctxt, v: &ty::TypeParameterDef) {
mywrite!(w, "{}:{}|", cx.tcx.sess.str_of(v.ident), (cx.ds)(v.def_id));
enc_bounds(w, cx, v.bounds);
}
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