ef870d37a5
Closes #8118, #7136 ~~~rust extern mod extra; use std::vec; use std::ptr; fn bench_from_elem(b: &mut extra::test::BenchHarness) { do b.iter { let v: ~[u8] = vec::from_elem(1024, 0u8); } } fn bench_set_memory(b: &mut extra::test::BenchHarness) { do b.iter { let mut v: ~[u8] = vec::with_capacity(1024); unsafe { let vp = vec::raw::to_mut_ptr(v); ptr::set_memory(vp, 0, 1024); vec::raw::set_len(&mut v, 1024); } } } fn bench_vec_repeat(b: &mut extra::test::BenchHarness) { do b.iter { let v: ~[u8] = ~[0u8, ..1024]; } } ~~~ Before: test bench_from_elem ... bench: 415 ns/iter (+/- 17) test bench_set_memory ... bench: 85 ns/iter (+/- 4) test bench_vec_repeat ... bench: 83 ns/iter (+/- 3) After: test bench_from_elem ... bench: 84 ns/iter (+/- 2) test bench_set_memory ... bench: 84 ns/iter (+/- 5) test bench_vec_repeat ... bench: 84 ns/iter (+/- 3)
309 lines
9.9 KiB
Rust
309 lines
9.9 KiB
Rust
// Copyright 2012-2013 The Rust Project Developers. See the COPYRIGHT
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// file at the top-level directory of this distribution and at
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// http://rust-lang.org/COPYRIGHT.
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//
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// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
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// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
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// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
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// option. This file may not be copied, modified, or distributed
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// except according to those terms.
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// Dynamic arenas.
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// Arenas are used to quickly allocate objects that share a
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// lifetime. The arena uses ~[u8] vectors as a backing store to
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// allocate objects from. For each allocated object, the arena stores
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// a pointer to the type descriptor followed by the
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// object. (Potentially with alignment padding after each of them.)
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// When the arena is destroyed, it iterates through all of its chunks,
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// and uses the tydesc information to trace through the objects,
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// calling the destructors on them.
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// One subtle point that needs to be addressed is how to handle
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// failures while running the user provided initializer function. It
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// is important to not run the destructor on uninitialized objects, but
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// how to detect them is somewhat subtle. Since alloc() can be invoked
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// recursively, it is not sufficient to simply exclude the most recent
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// object. To solve this without requiring extra space, we use the low
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// order bit of the tydesc pointer to encode whether the object it
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// describes has been fully initialized.
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// As an optimization, objects with destructors are stored in
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// different chunks than objects without destructors. This reduces
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// overhead when initializing plain-old-data and means we don't need
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// to waste time running the destructors of POD.
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#[allow(missing_doc)];
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use list::{MutList, MutCons, MutNil};
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use std::at_vec;
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use std::cast::{transmute, transmute_mut, transmute_mut_region};
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use std::cast;
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use std::num;
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use std::ptr;
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use std::sys;
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use std::uint;
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use std::vec;
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use std::unstable::intrinsics;
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use std::unstable::intrinsics::{TyDesc, get_tydesc};
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// The way arena uses arrays is really deeply awful. The arrays are
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// allocated, and have capacities reserved, but the fill for the array
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// will always stay at 0.
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struct Chunk {
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data: @[u8],
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fill: uint,
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is_pod: bool,
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}
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#[no_freeze]
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pub struct Arena {
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// The head is separated out from the list as a unbenchmarked
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// microoptimization, to avoid needing to case on the list to
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// access the head.
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priv head: Chunk,
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priv pod_head: Chunk,
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priv chunks: @mut MutList<Chunk>,
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}
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#[unsafe_destructor]
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impl Drop for Arena {
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fn drop(&self) {
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unsafe {
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destroy_chunk(&self.head);
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for self.chunks.each |chunk| {
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if !chunk.is_pod {
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destroy_chunk(chunk);
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}
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}
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}
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}
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}
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fn chunk(size: uint, is_pod: bool) -> Chunk {
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let mut v: @[u8] = @[];
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unsafe { at_vec::raw::reserve(&mut v, size); }
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Chunk {
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data: unsafe { cast::transmute(v) },
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fill: 0u,
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is_pod: is_pod,
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}
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}
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pub fn arena_with_size(initial_size: uint) -> Arena {
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Arena {
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head: chunk(initial_size, false),
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pod_head: chunk(initial_size, true),
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chunks: @mut MutNil,
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}
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}
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pub fn Arena() -> Arena {
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arena_with_size(32u)
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}
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#[inline]
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fn round_up_to(base: uint, align: uint) -> uint {
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(base + (align - 1)) & !(align - 1)
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}
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// Walk down a chunk, running the destructors for any objects stored
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// in it.
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unsafe fn destroy_chunk(chunk: &Chunk) {
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let mut idx = 0;
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let buf = vec::raw::to_ptr(chunk.data);
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let fill = chunk.fill;
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while idx < fill {
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let tydesc_data: *uint = transmute(ptr::offset(buf, idx as int));
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let (tydesc, is_done) = un_bitpack_tydesc_ptr(*tydesc_data);
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let (size, align) = ((*tydesc).size, (*tydesc).align);
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let after_tydesc = idx + sys::size_of::<*TyDesc>();
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let start = round_up_to(after_tydesc, align);
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//debug!("freeing object: idx = %u, size = %u, align = %u, done = %b",
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// start, size, align, is_done);
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if is_done {
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((*tydesc).drop_glue)(ptr::offset(buf, start as int) as *i8);
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}
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// Find where the next tydesc lives
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idx = round_up_to(start + size, sys::pref_align_of::<*TyDesc>());
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}
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}
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// We encode whether the object a tydesc describes has been
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// initialized in the arena in the low bit of the tydesc pointer. This
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// is necessary in order to properly do cleanup if a failure occurs
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// during an initializer.
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#[inline]
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unsafe fn bitpack_tydesc_ptr(p: *TyDesc, is_done: bool) -> uint {
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let p_bits: uint = transmute(p);
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p_bits | (is_done as uint)
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}
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#[inline]
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unsafe fn un_bitpack_tydesc_ptr(p: uint) -> (*TyDesc, bool) {
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(transmute(p & !1), p & 1 == 1)
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}
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impl Arena {
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// Functions for the POD part of the arena
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fn alloc_pod_grow(&mut self, n_bytes: uint, align: uint) -> *u8 {
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// Allocate a new chunk.
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let chunk_size = at_vec::capacity(self.pod_head.data);
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let new_min_chunk_size = num::max(n_bytes, chunk_size);
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self.chunks = @mut MutCons(self.pod_head, self.chunks);
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self.pod_head =
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chunk(uint::next_power_of_two(new_min_chunk_size + 1u), true);
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return self.alloc_pod_inner(n_bytes, align);
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}
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#[inline]
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fn alloc_pod_inner(&mut self, n_bytes: uint, align: uint) -> *u8 {
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unsafe {
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let this = transmute_mut_region(self);
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let start = round_up_to(this.pod_head.fill, align);
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let end = start + n_bytes;
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if end > at_vec::capacity(this.pod_head.data) {
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return this.alloc_pod_grow(n_bytes, align);
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}
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this.pod_head.fill = end;
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//debug!("idx = %u, size = %u, align = %u, fill = %u",
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// start, n_bytes, align, head.fill);
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ptr::offset(vec::raw::to_ptr(this.pod_head.data), start as int)
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}
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}
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#[inline]
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fn alloc_pod<'a, T>(&'a mut self, op: &fn() -> T) -> &'a T {
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unsafe {
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let tydesc = get_tydesc::<T>();
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let ptr = self.alloc_pod_inner((*tydesc).size, (*tydesc).align);
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let ptr: *mut T = transmute(ptr);
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intrinsics::move_val_init(&mut (*ptr), op());
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return transmute(ptr);
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}
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}
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// Functions for the non-POD part of the arena
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fn alloc_nonpod_grow(&mut self, n_bytes: uint, align: uint)
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-> (*u8, *u8) {
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// Allocate a new chunk.
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let chunk_size = at_vec::capacity(self.head.data);
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let new_min_chunk_size = num::max(n_bytes, chunk_size);
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self.chunks = @mut MutCons(self.head, self.chunks);
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self.head =
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chunk(uint::next_power_of_two(new_min_chunk_size + 1u), false);
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return self.alloc_nonpod_inner(n_bytes, align);
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}
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#[inline]
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fn alloc_nonpod_inner(&mut self, n_bytes: uint, align: uint)
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-> (*u8, *u8) {
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unsafe {
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let start;
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let end;
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let tydesc_start;
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let after_tydesc;
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{
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let head = transmute_mut_region(&mut self.head);
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tydesc_start = head.fill;
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after_tydesc = head.fill + sys::size_of::<*TyDesc>();
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start = round_up_to(after_tydesc, align);
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end = start + n_bytes;
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}
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if end > at_vec::capacity(self.head.data) {
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return self.alloc_nonpod_grow(n_bytes, align);
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}
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let head = transmute_mut_region(&mut self.head);
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head.fill = round_up_to(end, sys::pref_align_of::<*TyDesc>());
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//debug!("idx = %u, size = %u, align = %u, fill = %u",
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// start, n_bytes, align, head.fill);
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let buf = vec::raw::to_ptr(self.head.data);
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return (ptr::offset(buf, tydesc_start as int), ptr::offset(buf, start as int));
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}
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}
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#[inline]
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fn alloc_nonpod<'a, T>(&'a mut self, op: &fn() -> T) -> &'a T {
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unsafe {
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let tydesc = get_tydesc::<T>();
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let (ty_ptr, ptr) =
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self.alloc_nonpod_inner((*tydesc).size, (*tydesc).align);
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let ty_ptr: *mut uint = transmute(ty_ptr);
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let ptr: *mut T = transmute(ptr);
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// Write in our tydesc along with a bit indicating that it
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// has *not* been initialized yet.
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*ty_ptr = transmute(tydesc);
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// Actually initialize it
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intrinsics::move_val_init(&mut(*ptr), op());
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// Now that we are done, update the tydesc to indicate that
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// the object is there.
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*ty_ptr = bitpack_tydesc_ptr(tydesc, true);
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return transmute(ptr);
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}
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}
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// The external interface
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#[inline]
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pub fn alloc<'a, T>(&'a self, op: &fn() -> T) -> &'a T {
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unsafe {
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// XXX: Borrow check
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let this = transmute_mut(self);
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if intrinsics::needs_drop::<T>() {
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this.alloc_nonpod(op)
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} else {
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this.alloc_pod(op)
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}
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}
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}
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}
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#[test]
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fn test_arena_destructors() {
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let arena = Arena();
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for uint::range(0, 10) |i| {
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// Arena allocate something with drop glue to make sure it
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// doesn't leak.
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do arena.alloc { @i };
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// Allocate something with funny size and alignment, to keep
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// things interesting.
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do arena.alloc { [0u8, 1u8, 2u8] };
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}
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}
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#[test]
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#[should_fail]
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#[ignore(cfg(windows))]
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fn test_arena_destructors_fail() {
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let arena = Arena();
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// Put some stuff in the arena.
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for uint::range(0, 10) |i| {
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// Arena allocate something with drop glue to make sure it
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// doesn't leak.
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do arena.alloc { @i };
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// Allocate something with funny size and alignment, to keep
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// things interesting.
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do arena.alloc { [0u8, 1u8, 2u8] };
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}
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// Now, fail while allocating
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do arena.alloc::<@int> {
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// Now fail.
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fail!();
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};
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}
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