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Be a little more clever about calculating sizes for class types

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We could try to calculate the size of a partially-converted class type,
and run into an LLVM error because we were trying to calculate the size
of a named struct whose fields hadn't yet be filled in. The issue can be
dodged by extending simplify_type to convert classes to isomorphic
structural records, just for the purposes of size calculations.

(for real this time) Closes #2718
This commit is contained in:
Tim Chevalier 2012-06-25 22:11:19 -07:00
parent cf69604551
commit 91e44ea056
2 changed files with 272 additions and 27 deletions
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28
src/rustc/middle/trans/shape.rs
View File

@ -18,6 +18,7 @@ import syntax::codemap::span;
import dvec::{dvec, extensions};
import std::map::hashmap;
import option::is_some;
import ty_ctxt = middle::ty::ctxt;
@ -732,19 +733,24 @@ fn simplify_type(tcx: ty::ctxt, typ: ty::t) -> ty::t {
ty::ty_estr(ty::vstore_slice(_)) {
ty::mk_tup(tcx, [nilptr(tcx), ty::mk_int(tcx)]/~)
}
// Reduce a class type to a record type in which all the fields are
// simplified
ty::ty_class(did, substs) {
let simpl_fields = (if is_some(ty::ty_dtor(tcx, did)) {
// remember the drop flag
[{ident: @"drop", mt: {ty:
ty::mk_u8(tcx),
mutbl: ast::m_mutbl}}]/~ }
else { []/~ }) +
ty::lookup_class_fields(tcx, did).map {|f|
let t = ty::lookup_field_type(tcx, did, f.id, substs);
{ident: f.ident,
mt: {ty: simplify_type(tcx, t), mutbl: ast::m_const}}
};
ty::mk_rec(tcx, simpl_fields)
}
_ { typ }
}
}
ty::fold_ty(tcx, typ) {|t| simplifier(tcx, t) }
}
// Given a tag type `ty`, returns the offset of the payload.
//fn tag_payload_offs(bcx: block, tag_id: ast::def_id, tps: [ty::t]/~)
// -> ValueRef {
// alt tag_kind(tag_id) {
// tk_unit | tk_enum | tk_newtype { C_int(bcx.ccx(), 0) }
// tk_complex {
// compute_tag_metrics(tag_id, tps)
// }
// }
//}

271
src/test/run-pass/issue-2718.rs
View File

@ -1,7 +1,141 @@
fn sender_terminate<T:send>(p: *packet<T>) {
}
mod pipes {
import unsafe::{forget, reinterpret_cast};
class send_packet<T: send> {
enum state {
empty,
full,
blocked,
terminated
}
type packet<T: send> = {
mut state: state,
mut blocked_task: option<task::task>,
mut payload: option<T>
};
fn packet<T: send>() -> *packet<T> unsafe {
let p: *packet<T> = unsafe::transmute(~{
mut state: empty,
mut blocked_task: none::<task::task>,
mut payload: none::<T>
});
p
}
#[abi = "rust-intrinsic"]
mod rusti {
fn atomic_xchng(&dst: int, src: int) -> int { fail; }
fn atomic_xchng_acq(&dst: int, src: int) -> int { fail; }
fn atomic_xchng_rel(&dst: int, src: int) -> int { fail; }
}
// We should consider moving this to core::unsafe, although I
// suspect graydon would want us to use void pointers instead.
unsafe fn uniquify<T>(x: *T) -> ~T {
unsafe { unsafe::reinterpret_cast(x) }
}
fn swap_state_acq(&dst: state, src: state) -> state {
unsafe {
reinterpret_cast(rusti::atomic_xchng_acq(
*(ptr::mut_addr_of(dst) as *mut int),
src as int))
}
}
fn swap_state_rel(&dst: state, src: state) -> state {
unsafe {
reinterpret_cast(rusti::atomic_xchng_rel(
*(ptr::mut_addr_of(dst) as *mut int),
src as int))
}
}
fn send<T: send>(-p: send_packet<T>, -payload: T) {
let p = p.unwrap();
let p = unsafe { uniquify(p) };
assert (*p).payload == none;
(*p).payload <- some(payload);
let old_state = swap_state_rel((*p).state, full);
alt old_state {
empty {
// Yay, fastpath.
// The receiver will eventually clean this up.
unsafe { forget(p); }
}
full { fail "duplicate send" }
blocked {
// FIXME: once the target will actually block, tell the
// scheduler to wake it up.
// The receiver will eventually clean this up.
unsafe { forget(p); }
}
terminated {
// The receiver will never receive this. Rely on drop_glue
// to clean everything up.
}
}
}
fn recv<T: send>(-p: recv_packet<T>) -> option<T> {
let p = p.unwrap();
let p = unsafe { uniquify(p) };
loop {
let old_state = swap_state_acq((*p).state,
blocked);
alt old_state {
empty | blocked { task::yield(); }
full {
let mut payload = none;
payload <-> (*p).payload;
ret some(option::unwrap(payload))
}
terminated {
assert old_state == terminated;
ret none;
}
}
}
}
fn sender_terminate<T: send>(p: *packet<T>) {
let p = unsafe { uniquify(p) };
alt swap_state_rel((*p).state, terminated) {
empty | blocked {
// The receiver will eventually clean up.
unsafe { forget(p) }
}
full {
// This is impossible
fail "you dun goofed"
}
terminated {
// I have to clean up, use drop_glue
}
}
}
fn receiver_terminate<T: send>(p: *packet<T>) {
let p = unsafe { uniquify(p) };
alt swap_state_rel((*p).state, terminated) {
empty {
// the sender will clean up
unsafe { forget(p) }
}
blocked {
// this shouldn't happen.
fail "terminating a blocked packet"
}
terminated | full {
// I have to clean up, use drop_glue
}
}
}
class send_packet<T: send> {
let mut p: option<*packet<T>>;
new(p: *packet<T>) { self.p = some(p); }
drop {
@ -16,23 +150,128 @@ class send_packet<T: send> {
p <-> self.p;
option::unwrap(p)
}
}
class recv_packet<T: send> {
let mut p: option<*packet<T>>;
new(p: *packet<T>) { self.p = some(p); }
drop {
if self.p != none {
let mut p = none;
p <-> self.p;
receiver_terminate(option::unwrap(p))
}
}
fn unwrap() -> *packet<T> {
let mut p = none;
p <-> self.p;
option::unwrap(p)
}
}
fn entangle<T: send>() -> (send_packet<T>, recv_packet<T>) {
let p = packet();
(send_packet(p), recv_packet(p))
}
}
enum state {
empty,
full,
blocked,
terminated
mod pingpong {
enum ping = pipes::send_packet<pong>;
enum pong = pipes::send_packet<ping>;
fn liberate_ping(-p: ping) -> pipes::send_packet<pong> unsafe {
let addr : *pipes::send_packet<pong> = alt p {
ping(x) { unsafe::reinterpret_cast(ptr::addr_of(x)) }
};
let liberated_value <- *addr;
unsafe::forget(p);
liberated_value
}
fn liberate_pong(-p: pong) -> pipes::send_packet<ping> unsafe {
let addr : *pipes::send_packet<ping> = alt p {
pong(x) { unsafe::reinterpret_cast(ptr::addr_of(x)) }
};
let liberated_value <- *addr;
unsafe::forget(p);
liberated_value
}
fn init() -> (client::ping, server::ping) {
pipes::entangle()
}
mod client {
type ping = pipes::send_packet<pingpong::ping>;
type pong = pipes::recv_packet<pingpong::pong>;
fn do_ping(-c: ping) -> pong {
let (sp, rp) = pipes::entangle();
pipes::send(c, ping(sp));
rp
}
fn do_pong(-c: pong) -> (ping, ()) {
let packet = pipes::recv(c);
if packet == none {
fail "sender closed the connection"
}
(liberate_pong(option::unwrap(packet)), ())
}
}
mod server {
type ping = pipes::recv_packet<pingpong::ping>;
type pong = pipes::send_packet<pingpong::pong>;
fn do_ping(-c: ping) -> (pong, ()) {
let packet = pipes::recv(c);
if packet == none {
fail "sender closed the connection"
}
(liberate_ping(option::unwrap(packet)), ())
}
fn do_pong(-c: pong) -> ping {
let (sp, rp) = pipes::entangle();
pipes::send(c, pong(sp));
rp
}
}
}
type packet<T: send> = {
mut state: state,
mut blocked_task: option<task::task>,
mut payload: option<T>
};
fn client(-chan: pingpong::client::ping) {
let chan = pingpong::client::do_ping(chan);
log(error, "Sent ping");
let (chan, _data) = pingpong::client::do_pong(chan);
log(error, "Received pong");
}
fn server(-chan: pingpong::server::ping) {
let (chan, _data) = pingpong::server::do_ping(chan);
log(error, "Received ping");
let chan = pingpong::server::do_pong(chan);
log(error, "Sent pong");
}
fn main() {
let _s: send_packet<int> = send_packet(ptr::addr_of({mut state: empty,
mut blocked_task: none,
mut payload: some(42)}));
/*
// Commented out because of option::get error
let (client_, server_) = pingpong::init();
let client_ = ~mut some(client_);
let server_ = ~mut some(server_);
task::spawn {|move client_|
let mut client__ = none;
*client_ <-> client__;
client(option::unwrap(client__));
};
task::spawn {|move server_|
let mut server_ˊ = none;
*server_ <-> server_ˊ;
server(option::unwrap(server_ˊ));
};
*/
}