// Copyright 2013 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 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. //! The local, garbage collected heap use libc; use libc::{c_void, uintptr_t, size_t}; use ops::Drop; use repr::BoxRepr; use rt; use rt::OldTaskContext; use rt::local::Local; use rt::task::Task; type MemoryRegion = c_void; struct Env { priv opaque: () } struct BoxedRegion { env: *Env, backing_region: *MemoryRegion, live_allocs: *BoxRepr } pub type OpaqueBox = c_void; pub type TypeDesc = c_void; pub struct LocalHeap { memory_region: *MemoryRegion, boxed_region: *BoxedRegion } impl LocalHeap { pub fn new() -> LocalHeap { unsafe { // Don't need synchronization for the single-threaded local heap let synchronized = false as uintptr_t; // XXX: These usually come from the environment let detailed_leaks = false as uintptr_t; let poison_on_free = false as uintptr_t; let region = rust_new_memory_region(synchronized, detailed_leaks, poison_on_free); assert!(region.is_not_null()); let boxed = rust_new_boxed_region(region, poison_on_free); assert!(boxed.is_not_null()); LocalHeap { memory_region: region, boxed_region: boxed } } } pub fn alloc(&mut self, td: *TypeDesc, size: uint) -> *OpaqueBox { unsafe { return rust_boxed_region_malloc(self.boxed_region, td, size as size_t); } } pub fn realloc(&mut self, ptr: *OpaqueBox, size: uint) -> *OpaqueBox { unsafe { return rust_boxed_region_realloc(self.boxed_region, ptr, size as size_t); } } pub fn free(&mut self, box: *OpaqueBox) { unsafe { return rust_boxed_region_free(self.boxed_region, box); } } } impl Drop for LocalHeap { fn drop(&self) { unsafe { rust_delete_boxed_region(self.boxed_region); rust_delete_memory_region(self.memory_region); } } } // A little compatibility function pub unsafe fn local_free(ptr: *libc::c_char) { match rt::context() { OldTaskContext => { rust_upcall_free_noswitch(ptr); extern { #[fast_ffi] unsafe fn rust_upcall_free_noswitch(ptr: *libc::c_char); } } _ => { do Local::borrow:: |task| { task.heap.free(ptr as *libc::c_void); } } } } pub fn live_allocs() -> *BoxRepr { let region = match rt::context() { OldTaskContext => { unsafe { rust_current_boxed_region() } } _ => { do Local::borrow:: |task| { task.heap.boxed_region } } }; return unsafe { (*region).live_allocs }; } extern { fn rust_new_memory_region(synchronized: uintptr_t, detailed_leaks: uintptr_t, poison_on_free: uintptr_t) -> *MemoryRegion; fn rust_delete_memory_region(region: *MemoryRegion); fn rust_new_boxed_region(region: *MemoryRegion, poison_on_free: uintptr_t) -> *BoxedRegion; fn rust_delete_boxed_region(region: *BoxedRegion); fn rust_boxed_region_malloc(region: *BoxedRegion, td: *TypeDesc, size: size_t) -> *OpaqueBox; fn rust_boxed_region_realloc(region: *BoxedRegion, ptr: *OpaqueBox, size: size_t) -> *OpaqueBox; fn rust_boxed_region_free(region: *BoxedRegion, box: *OpaqueBox); fn rust_current_boxed_region() -> *BoxedRegion; } #[cfg(test)] mod bench { use extra::test::BenchHarness; #[bench] fn alloc_managed_small(bh: &mut BenchHarness) { do bh.iter { @10; } } #[bench] fn alloc_managed_big(bh: &mut BenchHarness) { do bh.iter { @[10, ..1000]; } } }