compiler/utils/scoped_arena_allocator.h - platform/art - Git at Google

 /*
  * Copyright (C) 2014 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef ART_COMPILER_UTILS_SCOPED_ARENA_ALLOCATOR_H_
 #define ART_COMPILER_UTILS_SCOPED_ARENA_ALLOCATOR_H_

 #include "base/logging.h"
 #include "base/macros.h"
 #include "utils/arena_allocator.h"
 #include "utils/debug_stack.h"
 #include "globals.h"

 namespace art {

 class ArenaStack;
 class ScopedArenaAllocator;

 template <typename T>
 class ScopedArenaAllocatorAdapter;

 // Holds a list of Arenas for use by ScopedArenaAllocator stack.
 class ArenaStack : private DebugStackRefCounter {
  public:
   explicit ArenaStack(ArenaPool* arena_pool);
   ~ArenaStack();

   void Reset();

   size_t PeakBytesAllocated() {
     return PeakStats()->BytesAllocated();
   }

   MemStats GetPeakStats() const;

  private:
   struct Peak;
   struct Current;
   template <typename Tag> struct TaggedStats : ArenaAllocatorStats { };
   struct StatsAndPool : TaggedStats<Peak>, TaggedStats<Current> {
     explicit StatsAndPool(ArenaPool* arena_pool) : pool(arena_pool) { }
     ArenaPool* const pool;
   };

   ArenaAllocatorStats* PeakStats() {
     return static_cast<TaggedStats<Peak>*>(&stats_and_pool_);
   }

   ArenaAllocatorStats* CurrentStats() {
     return static_cast<TaggedStats<Current>*>(&stats_and_pool_);
   }

   // Private - access via ScopedArenaAllocator or ScopedArenaAllocatorAdapter.
   void* Alloc(size_t bytes, ArenaAllocKind kind) ALWAYS_INLINE {
     if (UNLIKELY(running_on_valgrind_)) {
       return AllocValgrind(bytes, kind);
     }
     size_t rounded_bytes = RoundUp(bytes, 8);
     uint8_t* ptr = top_ptr_;
     if (UNLIKELY(static_cast<size_t>(top_end_ - ptr) < rounded_bytes)) {
       ptr = AllocateFromNextArena(rounded_bytes);
     }
     CurrentStats()->RecordAlloc(bytes, kind);
     top_ptr_ = ptr + rounded_bytes;
     return ptr;
   }

   uint8_t* AllocateFromNextArena(size_t rounded_bytes);
   void UpdatePeakStatsAndRestore(const ArenaAllocatorStats& restore_stats);
   void UpdateBytesAllocated();
   void* AllocValgrind(size_t bytes, ArenaAllocKind kind);

   StatsAndPool stats_and_pool_;
   Arena* bottom_arena_;
   Arena* top_arena_;
   uint8_t* top_ptr_;
   uint8_t* top_end_;

   const bool running_on_valgrind_;

   friend class ScopedArenaAllocator;
   template <typename T>
   friend class ScopedArenaAllocatorAdapter;

   DISALLOW_COPY_AND_ASSIGN(ArenaStack);
 };

 class ScopedArenaAllocator
     : private DebugStackReference, private DebugStackRefCounter, private ArenaAllocatorStats {
  public:
   // Create a ScopedArenaAllocator directly on the ArenaStack when the scope of
   // the allocator is not exactly a C++ block scope. For example, an optimization
   // pass can create the scoped allocator in Start() and destroy it in End().
   static ScopedArenaAllocator* Create(ArenaStack* arena_stack) {
     void* addr = arena_stack->Alloc(sizeof(ScopedArenaAllocator), kArenaAllocMisc);
     ScopedArenaAllocator* allocator = new(addr) ScopedArenaAllocator(arena_stack);
     allocator->mark_ptr_ = reinterpret_cast<uint8_t*>(addr);
     return allocator;
   }

   explicit ScopedArenaAllocator(ArenaStack* arena_stack);
   ~ScopedArenaAllocator();

   void Reset();

   void* Alloc(size_t bytes, ArenaAllocKind kind) ALWAYS_INLINE {
     DebugStackReference::CheckTop();
     return arena_stack_->Alloc(bytes, kind);
   }

   // ScopedArenaAllocatorAdapter is incomplete here, we need to define this later.
   ScopedArenaAllocatorAdapter<void> Adapter();

   // Allow a delete-expression to destroy but not deallocate allocators created by Create().
   static void operator delete(void* ptr) { UNUSED(ptr); }

  private:
   ArenaStack* const arena_stack_;
   Arena* mark_arena_;
   uint8_t* mark_ptr_;
   uint8_t* mark_end_;

   template <typename T>
   friend class ScopedArenaAllocatorAdapter;

   DISALLOW_COPY_AND_ASSIGN(ScopedArenaAllocator);
 };

 template <>
 class ScopedArenaAllocatorAdapter<void>
     : private DebugStackReference, private DebugStackIndirectTopRef {
  public:
   typedef void value_type;
   typedef void* pointer;
   typedef const void* const_pointer;

   template <typename U>
   struct rebind {
     typedef ScopedArenaAllocatorAdapter<U> other;
   };

   explicit ScopedArenaAllocatorAdapter(ScopedArenaAllocator* arena_allocator)
       : DebugStackReference(arena_allocator),
         DebugStackIndirectTopRef(arena_allocator),
         arena_stack_(arena_allocator->arena_stack_) {
   }
   template <typename U>
   ScopedArenaAllocatorAdapter(const ScopedArenaAllocatorAdapter<U>& other)
       : DebugStackReference(other),
         DebugStackIndirectTopRef(other),
         arena_stack_(other.arena_stack_) {
   }
   ScopedArenaAllocatorAdapter(const ScopedArenaAllocatorAdapter& other) = default;
   ScopedArenaAllocatorAdapter& operator=(const ScopedArenaAllocatorAdapter& other) = default;
   ~ScopedArenaAllocatorAdapter() = default;

  private:
   ArenaStack* arena_stack_;

   template <typename U>
   friend class ScopedArenaAllocatorAdapter;
 };

 // Adapter for use of ScopedArenaAllocator in STL containers.
 template <typename T>
 class ScopedArenaAllocatorAdapter : private DebugStackReference, private DebugStackIndirectTopRef {
  public:
   typedef T value_type;
   typedef T* pointer;
   typedef T& reference;
   typedef const T* const_pointer;
   typedef const T& const_reference;
   typedef size_t size_type;
   typedef ptrdiff_t difference_type;

   template <typename U>
   struct rebind {
     typedef ScopedArenaAllocatorAdapter<U> other;
   };

   explicit ScopedArenaAllocatorAdapter(ScopedArenaAllocator* arena_allocator)
       : DebugStackReference(arena_allocator),
         DebugStackIndirectTopRef(arena_allocator),
         arena_stack_(arena_allocator->arena_stack_) {
   }
   template <typename U>
   ScopedArenaAllocatorAdapter(const ScopedArenaAllocatorAdapter<U>& other)
       : DebugStackReference(other),
         DebugStackIndirectTopRef(other),
         arena_stack_(other.arena_stack_) {
   }
   ScopedArenaAllocatorAdapter(const ScopedArenaAllocatorAdapter& other) = default;
   ScopedArenaAllocatorAdapter& operator=(const ScopedArenaAllocatorAdapter& other) = default;
   ~ScopedArenaAllocatorAdapter() = default;

   size_type max_size() const {
     return static_cast<size_type>(-1) / sizeof(T);
   }

   pointer address(reference x) const { return &x; }
   const_pointer address(const_reference x) const { return &x; }

   pointer allocate(size_type n, ScopedArenaAllocatorAdapter<void>::pointer hint = nullptr) {
     DCHECK_LE(n, max_size());
     DebugStackIndirectTopRef::CheckTop();
     return reinterpret_cast<T*>(arena_stack_->Alloc(n * sizeof(T), kArenaAllocSTL));
   }
   void deallocate(pointer p, size_type n) {
     DebugStackIndirectTopRef::CheckTop();
   }

   void construct(pointer p, const_reference val) {
     DebugStackIndirectTopRef::CheckTop();
     new (static_cast<void*>(p)) value_type(val);
   }
   void destroy(pointer p) {
     DebugStackIndirectTopRef::CheckTop();
     p->~value_type();
   }

  private:
   ArenaStack* arena_stack_;

   template <typename U>
   friend class ScopedArenaAllocatorAdapter;

   template <typename U>
   friend bool operator==(const ScopedArenaAllocatorAdapter<U>& lhs,
                          const ScopedArenaAllocatorAdapter<U>& rhs);
 };

 template <typename T>
 inline bool operator==(const ScopedArenaAllocatorAdapter<T>& lhs,
                        const ScopedArenaAllocatorAdapter<T>& rhs) {
   return lhs.arena_stack_ == rhs.arena_stack_;
 }

 template <typename T>
 inline bool operator!=(const ScopedArenaAllocatorAdapter<T>& lhs,
                        const ScopedArenaAllocatorAdapter<T>& rhs) {
   return !(lhs == rhs);
 }

 inline ScopedArenaAllocatorAdapter<void> ScopedArenaAllocator::Adapter() {
   return ScopedArenaAllocatorAdapter<void>(this);
 }

 }  // namespace art

 #endif  // ART_COMPILER_UTILS_SCOPED_ARENA_ALLOCATOR_H_
	/*
	* Copyright (C) 2014 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef ART_COMPILER_UTILS_SCOPED_ARENA_ALLOCATOR_H_
	#define ART_COMPILER_UTILS_SCOPED_ARENA_ALLOCATOR_H_

	#include "base/logging.h"
	#include "base/macros.h"
	#include "utils/arena_allocator.h"
	#include "utils/debug_stack.h"
	#include "globals.h"

	namespace art {

	class ArenaStack;
	class ScopedArenaAllocator;

	template <typename T>
	class ScopedArenaAllocatorAdapter;

	// Holds a list of Arenas for use by ScopedArenaAllocator stack.
	class ArenaStack : private DebugStackRefCounter {
	public:
	explicit ArenaStack(ArenaPool* arena_pool);
	~ArenaStack();

	void Reset();

	size_t PeakBytesAllocated() {
	return PeakStats()->BytesAllocated();
	}

	MemStats GetPeakStats() const;

	private:
	struct Peak;
	struct Current;
	template <typename Tag> struct TaggedStats : ArenaAllocatorStats { };
	struct StatsAndPool : TaggedStats<Peak>, TaggedStats<Current> {
	explicit StatsAndPool(ArenaPool* arena_pool) : pool(arena_pool) { }
	ArenaPool* const pool;
	};

	ArenaAllocatorStats* PeakStats() {
	return static_cast<TaggedStats<Peak>*>(&stats_and_pool_);
	}

	ArenaAllocatorStats* CurrentStats() {
	return static_cast<TaggedStats<Current>*>(&stats_and_pool_);
	}

	// Private - access via ScopedArenaAllocator or ScopedArenaAllocatorAdapter.
	void* Alloc(size_t bytes, ArenaAllocKind kind) ALWAYS_INLINE {
	if (UNLIKELY(running_on_valgrind_)) {
	return AllocValgrind(bytes, kind);
	}
	size_t rounded_bytes = RoundUp(bytes, 8);
	uint8_t* ptr = top_ptr_;
	if (UNLIKELY(static_cast<size_t>(top_end_ - ptr) < rounded_bytes)) {
	ptr = AllocateFromNextArena(rounded_bytes);
	}
	CurrentStats()->RecordAlloc(bytes, kind);
	top_ptr_ = ptr + rounded_bytes;
	return ptr;
	}

	uint8_t* AllocateFromNextArena(size_t rounded_bytes);
	void UpdatePeakStatsAndRestore(const ArenaAllocatorStats& restore_stats);
	void UpdateBytesAllocated();
	void* AllocValgrind(size_t bytes, ArenaAllocKind kind);

	StatsAndPool stats_and_pool_;
	Arena* bottom_arena_;
	Arena* top_arena_;
	uint8_t* top_ptr_;
	uint8_t* top_end_;

	const bool running_on_valgrind_;

	friend class ScopedArenaAllocator;
	template <typename T>
	friend class ScopedArenaAllocatorAdapter;

	DISALLOW_COPY_AND_ASSIGN(ArenaStack);
	};

	class ScopedArenaAllocator
	: private DebugStackReference, private DebugStackRefCounter, private ArenaAllocatorStats {
	public:
	// Create a ScopedArenaAllocator directly on the ArenaStack when the scope of
	// the allocator is not exactly a C++ block scope. For example, an optimization
	// pass can create the scoped allocator in Start() and destroy it in End().
	static ScopedArenaAllocator* Create(ArenaStack* arena_stack) {
	void* addr = arena_stack->Alloc(sizeof(ScopedArenaAllocator), kArenaAllocMisc);
	ScopedArenaAllocator* allocator = new(addr) ScopedArenaAllocator(arena_stack);
	allocator->mark_ptr_ = reinterpret_cast<uint8_t*>(addr);
	return allocator;
	}

	explicit ScopedArenaAllocator(ArenaStack* arena_stack);
	~ScopedArenaAllocator();

	void Reset();

	void* Alloc(size_t bytes, ArenaAllocKind kind) ALWAYS_INLINE {
	DebugStackReference::CheckTop();
	return arena_stack_->Alloc(bytes, kind);
	}

	// ScopedArenaAllocatorAdapter is incomplete here, we need to define this later.
	ScopedArenaAllocatorAdapter<void> Adapter();

	// Allow a delete-expression to destroy but not deallocate allocators created by Create().
	static void operator delete(void* ptr) { UNUSED(ptr); }

	private:
	ArenaStack* const arena_stack_;
	Arena* mark_arena_;
	uint8_t* mark_ptr_;
	uint8_t* mark_end_;

	template <typename T>
	friend class ScopedArenaAllocatorAdapter;

	DISALLOW_COPY_AND_ASSIGN(ScopedArenaAllocator);
	};

	template <>
	class ScopedArenaAllocatorAdapter<void>
	: private DebugStackReference, private DebugStackIndirectTopRef {
	public:
	typedef void value_type;
	typedef void* pointer;
	typedef const void* const_pointer;

	template <typename U>
	struct rebind {
	typedef ScopedArenaAllocatorAdapter<U> other;
	};

	explicit ScopedArenaAllocatorAdapter(ScopedArenaAllocator* arena_allocator)
	: DebugStackReference(arena_allocator),
	DebugStackIndirectTopRef(arena_allocator),
	arena_stack_(arena_allocator->arena_stack_) {
	}
	template <typename U>
	ScopedArenaAllocatorAdapter(const ScopedArenaAllocatorAdapter<U>& other)
	: DebugStackReference(other),
	DebugStackIndirectTopRef(other),
	arena_stack_(other.arena_stack_) {
	}
	ScopedArenaAllocatorAdapter(const ScopedArenaAllocatorAdapter& other) = default;
	ScopedArenaAllocatorAdapter& operator=(const ScopedArenaAllocatorAdapter& other) = default;
	~ScopedArenaAllocatorAdapter() = default;

	private:
	ArenaStack* arena_stack_;

	template <typename U>
	friend class ScopedArenaAllocatorAdapter;
	};

	// Adapter for use of ScopedArenaAllocator in STL containers.
	template <typename T>
	class ScopedArenaAllocatorAdapter : private DebugStackReference, private DebugStackIndirectTopRef {
	public:
	typedef T value_type;
	typedef T* pointer;
	typedef T& reference;
	typedef const T* const_pointer;
	typedef const T& const_reference;
	typedef size_t size_type;
	typedef ptrdiff_t difference_type;

	template <typename U>
	struct rebind {
	typedef ScopedArenaAllocatorAdapter<U> other;
	};

	explicit ScopedArenaAllocatorAdapter(ScopedArenaAllocator* arena_allocator)
	: DebugStackReference(arena_allocator),
	DebugStackIndirectTopRef(arena_allocator),
	arena_stack_(arena_allocator->arena_stack_) {
	}
	template <typename U>
	ScopedArenaAllocatorAdapter(const ScopedArenaAllocatorAdapter<U>& other)
	: DebugStackReference(other),
	DebugStackIndirectTopRef(other),
	arena_stack_(other.arena_stack_) {
	}
	ScopedArenaAllocatorAdapter(const ScopedArenaAllocatorAdapter& other) = default;
	ScopedArenaAllocatorAdapter& operator=(const ScopedArenaAllocatorAdapter& other) = default;
	~ScopedArenaAllocatorAdapter() = default;

	size_type max_size() const {
	return static_cast<size_type>(-1) / sizeof(T);
	}

	pointer address(reference x) const { return &x; }
	const_pointer address(const_reference x) const { return &x; }

	pointer allocate(size_type n, ScopedArenaAllocatorAdapter<void>::pointer hint = nullptr) {
	DCHECK_LE(n, max_size());
	DebugStackIndirectTopRef::CheckTop();
	return reinterpret_cast<T>(arena_stack_->Alloc(n sizeof(T), kArenaAllocSTL));
	}
	void deallocate(pointer p, size_type n) {
	DebugStackIndirectTopRef::CheckTop();
	}

	void construct(pointer p, const_reference val) {
	DebugStackIndirectTopRef::CheckTop();
	new (static_cast<void*>(p)) value_type(val);
	}
	void destroy(pointer p) {
	DebugStackIndirectTopRef::CheckTop();
	p->~value_type();
	}

	private:
	ArenaStack* arena_stack_;

	template <typename U>
	friend class ScopedArenaAllocatorAdapter;

	template <typename U>
	friend bool operator==(const ScopedArenaAllocatorAdapter<U>& lhs,
	const ScopedArenaAllocatorAdapter<U>& rhs);
	};

	template <typename T>
	inline bool operator==(const ScopedArenaAllocatorAdapter<T>& lhs,
	const ScopedArenaAllocatorAdapter<T>& rhs) {
	return lhs.arena_stack_ == rhs.arena_stack_;
	}

	template <typename T>
	inline bool operator!=(const ScopedArenaAllocatorAdapter<T>& lhs,
	const ScopedArenaAllocatorAdapter<T>& rhs) {
	return !(lhs == rhs);
	}

	inline ScopedArenaAllocatorAdapter<void> ScopedArenaAllocator::Adapter() {
	return ScopedArenaAllocatorAdapter<void>(this);
	}

	} // namespace art

	#endif // ART_COMPILER_UTILS_SCOPED_ARENA_ALLOCATOR_H_