platform_system_core/include/utils/RefBase.h
Jeff Brown 9a0a76df1e Add traits to common utils data structures.
Many of our basic data structures are trivially movable using
memcpy() even if they are not trivially constructable, destructable
or copyable.  It's worth taking advantage of this *ahem* trait.

Adding trivial_move_trait to String16 reduces appt running
time on frameworks/base/core/res by 40%!

Change-Id: I630a1a027e2d0ded96856e4ca042ea82906289fe
2013-07-30 13:56:59 -07:00

529 lines
15 KiB
C++

/*
* Copyright (C) 2005 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 ANDROID_REF_BASE_H
#define ANDROID_REF_BASE_H
#include <cutils/atomic.h>
#include <stdint.h>
#include <sys/types.h>
#include <stdlib.h>
#include <string.h>
#include <utils/StrongPointer.h>
#include <utils/TypeHelpers.h>
// ---------------------------------------------------------------------------
namespace android {
class TextOutput;
TextOutput& printWeakPointer(TextOutput& to, const void* val);
// ---------------------------------------------------------------------------
#define COMPARE_WEAK(_op_) \
inline bool operator _op_ (const sp<T>& o) const { \
return m_ptr _op_ o.m_ptr; \
} \
inline bool operator _op_ (const T* o) const { \
return m_ptr _op_ o; \
} \
template<typename U> \
inline bool operator _op_ (const sp<U>& o) const { \
return m_ptr _op_ o.m_ptr; \
} \
template<typename U> \
inline bool operator _op_ (const U* o) const { \
return m_ptr _op_ o; \
}
// ---------------------------------------------------------------------------
class ReferenceMover;
class ReferenceConverterBase {
public:
virtual size_t getReferenceTypeSize() const = 0;
virtual void* getReferenceBase(void const*) const = 0;
inline virtual ~ReferenceConverterBase() { }
};
// ---------------------------------------------------------------------------
class RefBase
{
public:
void incStrong(const void* id) const;
void decStrong(const void* id) const;
void forceIncStrong(const void* id) const;
//! DEBUGGING ONLY: Get current strong ref count.
int32_t getStrongCount() const;
class weakref_type
{
public:
RefBase* refBase() const;
void incWeak(const void* id);
void decWeak(const void* id);
// acquires a strong reference if there is already one.
bool attemptIncStrong(const void* id);
// acquires a weak reference if there is already one.
// This is not always safe. see ProcessState.cpp and BpBinder.cpp
// for proper use.
bool attemptIncWeak(const void* id);
//! DEBUGGING ONLY: Get current weak ref count.
int32_t getWeakCount() const;
//! DEBUGGING ONLY: Print references held on object.
void printRefs() const;
//! DEBUGGING ONLY: Enable tracking for this object.
// enable -- enable/disable tracking
// retain -- when tracking is enable, if true, then we save a stack trace
// for each reference and dereference; when retain == false, we
// match up references and dereferences and keep only the
// outstanding ones.
void trackMe(bool enable, bool retain);
};
weakref_type* createWeak(const void* id) const;
weakref_type* getWeakRefs() const;
//! DEBUGGING ONLY: Print references held on object.
inline void printRefs() const { getWeakRefs()->printRefs(); }
//! DEBUGGING ONLY: Enable tracking of object.
inline void trackMe(bool enable, bool retain)
{
getWeakRefs()->trackMe(enable, retain);
}
typedef RefBase basetype;
protected:
RefBase();
virtual ~RefBase();
//! Flags for extendObjectLifetime()
enum {
OBJECT_LIFETIME_STRONG = 0x0000,
OBJECT_LIFETIME_WEAK = 0x0001,
OBJECT_LIFETIME_MASK = 0x0001
};
void extendObjectLifetime(int32_t mode);
//! Flags for onIncStrongAttempted()
enum {
FIRST_INC_STRONG = 0x0001
};
virtual void onFirstRef();
virtual void onLastStrongRef(const void* id);
virtual bool onIncStrongAttempted(uint32_t flags, const void* id);
virtual void onLastWeakRef(const void* id);
private:
friend class ReferenceMover;
static void moveReferences(void* d, void const* s, size_t n,
const ReferenceConverterBase& caster);
private:
friend class weakref_type;
class weakref_impl;
RefBase(const RefBase& o);
RefBase& operator=(const RefBase& o);
weakref_impl* const mRefs;
};
// ---------------------------------------------------------------------------
template <class T>
class LightRefBase
{
public:
inline LightRefBase() : mCount(0) { }
inline void incStrong(const void* id) const {
android_atomic_inc(&mCount);
}
inline void decStrong(const void* id) const {
if (android_atomic_dec(&mCount) == 1) {
delete static_cast<const T*>(this);
}
}
//! DEBUGGING ONLY: Get current strong ref count.
inline int32_t getStrongCount() const {
return mCount;
}
typedef LightRefBase<T> basetype;
protected:
inline ~LightRefBase() { }
private:
friend class ReferenceMover;
inline static void moveReferences(void* d, void const* s, size_t n,
const ReferenceConverterBase& caster) { }
private:
mutable volatile int32_t mCount;
};
// ---------------------------------------------------------------------------
template <typename T>
class wp
{
public:
typedef typename RefBase::weakref_type weakref_type;
inline wp() : m_ptr(0) { }
wp(T* other);
wp(const wp<T>& other);
wp(const sp<T>& other);
template<typename U> wp(U* other);
template<typename U> wp(const sp<U>& other);
template<typename U> wp(const wp<U>& other);
~wp();
// Assignment
wp& operator = (T* other);
wp& operator = (const wp<T>& other);
wp& operator = (const sp<T>& other);
template<typename U> wp& operator = (U* other);
template<typename U> wp& operator = (const wp<U>& other);
template<typename U> wp& operator = (const sp<U>& other);
void set_object_and_refs(T* other, weakref_type* refs);
// promotion to sp
sp<T> promote() const;
// Reset
void clear();
// Accessors
inline weakref_type* get_refs() const { return m_refs; }
inline T* unsafe_get() const { return m_ptr; }
// Operators
COMPARE_WEAK(==)
COMPARE_WEAK(!=)
COMPARE_WEAK(>)
COMPARE_WEAK(<)
COMPARE_WEAK(<=)
COMPARE_WEAK(>=)
inline bool operator == (const wp<T>& o) const {
return (m_ptr == o.m_ptr) && (m_refs == o.m_refs);
}
template<typename U>
inline bool operator == (const wp<U>& o) const {
return m_ptr == o.m_ptr;
}
inline bool operator > (const wp<T>& o) const {
return (m_ptr == o.m_ptr) ? (m_refs > o.m_refs) : (m_ptr > o.m_ptr);
}
template<typename U>
inline bool operator > (const wp<U>& o) const {
return (m_ptr == o.m_ptr) ? (m_refs > o.m_refs) : (m_ptr > o.m_ptr);
}
inline bool operator < (const wp<T>& o) const {
return (m_ptr == o.m_ptr) ? (m_refs < o.m_refs) : (m_ptr < o.m_ptr);
}
template<typename U>
inline bool operator < (const wp<U>& o) const {
return (m_ptr == o.m_ptr) ? (m_refs < o.m_refs) : (m_ptr < o.m_ptr);
}
inline bool operator != (const wp<T>& o) const { return m_refs != o.m_refs; }
template<typename U> inline bool operator != (const wp<U>& o) const { return !operator == (o); }
inline bool operator <= (const wp<T>& o) const { return !operator > (o); }
template<typename U> inline bool operator <= (const wp<U>& o) const { return !operator > (o); }
inline bool operator >= (const wp<T>& o) const { return !operator < (o); }
template<typename U> inline bool operator >= (const wp<U>& o) const { return !operator < (o); }
private:
template<typename Y> friend class sp;
template<typename Y> friend class wp;
T* m_ptr;
weakref_type* m_refs;
};
template <typename T>
TextOutput& operator<<(TextOutput& to, const wp<T>& val);
#undef COMPARE_WEAK
// ---------------------------------------------------------------------------
// No user serviceable parts below here.
template<typename T>
wp<T>::wp(T* other)
: m_ptr(other)
{
if (other) m_refs = other->createWeak(this);
}
template<typename T>
wp<T>::wp(const wp<T>& other)
: m_ptr(other.m_ptr), m_refs(other.m_refs)
{
if (m_ptr) m_refs->incWeak(this);
}
template<typename T>
wp<T>::wp(const sp<T>& other)
: m_ptr(other.m_ptr)
{
if (m_ptr) {
m_refs = m_ptr->createWeak(this);
}
}
template<typename T> template<typename U>
wp<T>::wp(U* other)
: m_ptr(other)
{
if (other) m_refs = other->createWeak(this);
}
template<typename T> template<typename U>
wp<T>::wp(const wp<U>& other)
: m_ptr(other.m_ptr)
{
if (m_ptr) {
m_refs = other.m_refs;
m_refs->incWeak(this);
}
}
template<typename T> template<typename U>
wp<T>::wp(const sp<U>& other)
: m_ptr(other.m_ptr)
{
if (m_ptr) {
m_refs = m_ptr->createWeak(this);
}
}
template<typename T>
wp<T>::~wp()
{
if (m_ptr) m_refs->decWeak(this);
}
template<typename T>
wp<T>& wp<T>::operator = (T* other)
{
weakref_type* newRefs =
other ? other->createWeak(this) : 0;
if (m_ptr) m_refs->decWeak(this);
m_ptr = other;
m_refs = newRefs;
return *this;
}
template<typename T>
wp<T>& wp<T>::operator = (const wp<T>& other)
{
weakref_type* otherRefs(other.m_refs);
T* otherPtr(other.m_ptr);
if (otherPtr) otherRefs->incWeak(this);
if (m_ptr) m_refs->decWeak(this);
m_ptr = otherPtr;
m_refs = otherRefs;
return *this;
}
template<typename T>
wp<T>& wp<T>::operator = (const sp<T>& other)
{
weakref_type* newRefs =
other != NULL ? other->createWeak(this) : 0;
T* otherPtr(other.m_ptr);
if (m_ptr) m_refs->decWeak(this);
m_ptr = otherPtr;
m_refs = newRefs;
return *this;
}
template<typename T> template<typename U>
wp<T>& wp<T>::operator = (U* other)
{
weakref_type* newRefs =
other ? other->createWeak(this) : 0;
if (m_ptr) m_refs->decWeak(this);
m_ptr = other;
m_refs = newRefs;
return *this;
}
template<typename T> template<typename U>
wp<T>& wp<T>::operator = (const wp<U>& other)
{
weakref_type* otherRefs(other.m_refs);
U* otherPtr(other.m_ptr);
if (otherPtr) otherRefs->incWeak(this);
if (m_ptr) m_refs->decWeak(this);
m_ptr = otherPtr;
m_refs = otherRefs;
return *this;
}
template<typename T> template<typename U>
wp<T>& wp<T>::operator = (const sp<U>& other)
{
weakref_type* newRefs =
other != NULL ? other->createWeak(this) : 0;
U* otherPtr(other.m_ptr);
if (m_ptr) m_refs->decWeak(this);
m_ptr = otherPtr;
m_refs = newRefs;
return *this;
}
template<typename T>
void wp<T>::set_object_and_refs(T* other, weakref_type* refs)
{
if (other) refs->incWeak(this);
if (m_ptr) m_refs->decWeak(this);
m_ptr = other;
m_refs = refs;
}
template<typename T>
sp<T> wp<T>::promote() const
{
sp<T> result;
if (m_ptr && m_refs->attemptIncStrong(&result)) {
result.set_pointer(m_ptr);
}
return result;
}
template<typename T>
void wp<T>::clear()
{
if (m_ptr) {
m_refs->decWeak(this);
m_ptr = 0;
}
}
template <typename T>
inline TextOutput& operator<<(TextOutput& to, const wp<T>& val)
{
return printWeakPointer(to, val.unsafe_get());
}
// ---------------------------------------------------------------------------
// this class just serves as a namespace so TYPE::moveReferences can stay
// private.
class ReferenceMover {
// StrongReferenceCast and WeakReferenceCast do the impedance matching
// between the generic (void*) implementation in Refbase and the strongly typed
// template specializations below.
template <typename TYPE>
struct StrongReferenceCast : public ReferenceConverterBase {
virtual size_t getReferenceTypeSize() const { return sizeof( sp<TYPE> ); }
virtual void* getReferenceBase(void const* p) const {
sp<TYPE> const* sptr(reinterpret_cast<sp<TYPE> const*>(p));
return static_cast<typename TYPE::basetype *>(sptr->get());
}
};
template <typename TYPE>
struct WeakReferenceCast : public ReferenceConverterBase {
virtual size_t getReferenceTypeSize() const { return sizeof( wp<TYPE> ); }
virtual void* getReferenceBase(void const* p) const {
wp<TYPE> const* sptr(reinterpret_cast<wp<TYPE> const*>(p));
return static_cast<typename TYPE::basetype *>(sptr->unsafe_get());
}
};
public:
template<typename TYPE> static inline
void move_references(sp<TYPE>* d, sp<TYPE> const* s, size_t n) {
memmove(d, s, n*sizeof(sp<TYPE>));
StrongReferenceCast<TYPE> caster;
TYPE::moveReferences(d, s, n, caster);
}
template<typename TYPE> static inline
void move_references(wp<TYPE>* d, wp<TYPE> const* s, size_t n) {
memmove(d, s, n*sizeof(wp<TYPE>));
WeakReferenceCast<TYPE> caster;
TYPE::moveReferences(d, s, n, caster);
}
};
// specialization for moving sp<> and wp<> types.
// these are used by the [Sorted|Keyed]Vector<> implementations
// sp<> and wp<> need to be handled specially, because they do not
// have trivial copy operation in the general case (see RefBase.cpp
// when DEBUG ops are enabled), but can be implemented very
// efficiently in most cases.
template<typename TYPE> inline
void move_forward_type(sp<TYPE>* d, sp<TYPE> const* s, size_t n) {
ReferenceMover::move_references(d, s, n);
}
template<typename TYPE> inline
void move_backward_type(sp<TYPE>* d, sp<TYPE> const* s, size_t n) {
ReferenceMover::move_references(d, s, n);
}
template<typename TYPE> inline
void move_forward_type(wp<TYPE>* d, wp<TYPE> const* s, size_t n) {
ReferenceMover::move_references(d, s, n);
}
template<typename TYPE> inline
void move_backward_type(wp<TYPE>* d, wp<TYPE> const* s, size_t n) {
ReferenceMover::move_references(d, s, n);
}
}; // namespace android
// ---------------------------------------------------------------------------
#endif // ANDROID_REF_BASE_H