shrub/outside/re2/util/arena.h

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// Copyright 2000 The RE2 Authors. All Rights Reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// Sometimes it is necessary to allocate a large number of small
// objects. Doing this the usual way (malloc, new) is slow,
// especially for multithreaded programs. An UnsafeArena provides a
// mark/release method of memory management: it asks for a large chunk
// from the operating system and doles it out bit by bit as required.
// Then you free all the memory at once by calling UnsafeArena::Reset().
// The "Unsafe" refers to the fact that UnsafeArena is not safe to
// call from multiple threads.
//
// The global operator new that can be used as follows:
//
// #include "lib/arena-inl.h"
//
// UnsafeArena arena(1000);
// Foo* foo = new (AllocateInArena, &arena) Foo;
//
#ifndef RE2_UTIL_ARENA_H_
#define RE2_UTIL_ARENA_H_
namespace re2 {
// This class is thread-compatible.
class UnsafeArena {
public:
UnsafeArena(const size_t block_size);
virtual ~UnsafeArena();
void Reset();
// This should be the worst-case alignment for any type. This is
// good for IA-32, SPARC version 7 (the last one I know), and
// supposedly Alpha. i386 would be more time-efficient with a
// default alignment of 8, but ::operator new() uses alignment of 4,
// and an assertion will fail below after the call to MakeNewBlock()
// if you try to use a larger alignment.
#ifdef __i386__
static const int kDefaultAlignment = 4;
#else
static const int kDefaultAlignment = 8;
#endif
private:
void* GetMemoryFallback(const size_t size, const int align);
public:
void* GetMemory(const size_t size, const int align) {
if ( size > 0 && size < remaining_ && align == 1 ) { // common case
last_alloc_ = freestart_;
freestart_ += size;
remaining_ -= size;
return reinterpret_cast<void*>(last_alloc_);
}
return GetMemoryFallback(size, align);
}
private:
struct AllocatedBlock {
char *mem;
size_t size;
};
// The returned AllocatedBlock* is valid until the next call to AllocNewBlock
// or Reset (i.e. anything that might affect overflow_blocks_).
AllocatedBlock *AllocNewBlock(const size_t block_size);
const AllocatedBlock *IndexToBlock(int index) const;
const size_t block_size_;
char* freestart_; // beginning of the free space in most recent block
char* freestart_when_empty_; // beginning of the free space when we're empty
char* last_alloc_; // used to make sure ReturnBytes() is safe
size_t remaining_;
// STL vector isn't as efficient as it could be, so we use an array at first
int blocks_alloced_; // how many of the first_blocks_ have been alloced
AllocatedBlock first_blocks_[16]; // the length of this array is arbitrary
// if the first_blocks_ aren't enough, expand into overflow_blocks_.
vector<AllocatedBlock>* overflow_blocks_;
void FreeBlocks(); // Frees all except first block
DISALLOW_EVIL_CONSTRUCTORS(UnsafeArena);
};
// Operators for allocation on the arena
// Syntax: new (AllocateInArena, arena) MyClass;
// STL containers, etc.
enum AllocateInArenaType { AllocateInArena };
} // namespace re2
inline void* operator new(size_t size,
re2::AllocateInArenaType /* unused */,
re2::UnsafeArena *arena) {
return reinterpret_cast<char*>(arena->GetMemory(size, 1));
}
#endif // RE2_UTIL_ARENA_H_