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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
* This file incorporates work covered by the following license notice:
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed
* with this work for additional information regarding copyright
* ownership. The ASF licenses this file to you 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 .
*/
/*
* This file is part of LibreOffice published API.
*/
#ifndef INCLUDED_RTL_INSTANCE_HXX
#define INCLUDED_RTL_INSTANCE_HXX
#include "sal/config.h"
#include <cstddef>
#include "osl/doublecheckedlocking.h"
#include "osl/getglobalmutex.hxx"
namespace {
/** A non-broken version of the double-checked locking pattern.
See
<http://www.cs.umd.edu/~pugh/java/memoryModel/DoubleCheckedLocking.html>
for a description of double-checked locking, why it is broken, and how it
can be fixed. Always use this template instead of spelling out the
double-checked locking pattern explicitly, and only in those rare cases
where that is not possible and you have to spell it out explicitly, at
least call OSL_DOUBLE_CHECKED_LOCKING_MEMORY_BARRIER() at the right
places. That way, all platform-dependent code to make double-checked
locking work can be kept in one place.
Usage scenarios:
1 Static instance (most common case)
Pattern:
T * getInstance()
{
static T * pInstance = 0;
if (!pInstance)
{
::osl::MutexGuard aGuard(::osl::Mutex::getGlobalMutex());
if (!pInstance)
{
static T aInstance;
pInstance = &aInstance;
}
}
return pInstance;
}
Code:
#include <rtl/instance.hxx>
#include <osl/getglobalmutex.hxx>
namespace {
struct Init
{
T * operator()()
{
static T aInstance;
return &aInstance;
}
};
}
T * getInstance()
{
return rtl_Instance< T, Init, ::osl::MutexGuard,
::osl::GetGlobalMutex >::create(
Init(), ::osl::GetGlobalMutex());
}
2 Dynamic instance
Pattern:
T * getInstance()
{
static T * pInstance = 0;
if (!pInstance)
{
::osl::MutexGuard aGuard(::osl::Mutex::getGlobalMutex());
if (!pInstance)
pInstance = new T;
}
return pInstance;
}
Code:
#include <rtl/instance.hxx>
#include <osl/getglobalmutex.hxx>
namespace {
struct Init
{
T * operator()()
{
return new T;
}
};
}
T * getInstance()
{
return rtl_Instance< T, Init, ::osl::MutexGuard,
::osl::GetGlobalMutex >::create(
Init(), ::osl::GetGlobalMutex());
}
3 Other guard/mutex
Pattern:
T * getInstance()
{
static T * pInstance = 0;
if (!pInstance)
{
SomeGuard aGuard(pSomeMutex);
if (!pInstance)
{
static T aInstance;
pInstance = &aInstance;
}
}
return pInstance;
}
Code:
#include <rtl/instance.hxx>
namespace {
struct InitInstance
{
T * operator()()
{
static T aInstance;
return &aInstance;
}
};
struct InitGuard
{
SomeMutex * operator()()
{
return pSomeMutex;
}
};
}
T * getInstance()
{
return rtl_Instance< T, InitInstance,
SomeGuard, InitGuard >::create(
InitInstance(), InitMutex());
}
4 Calculate extra data
Pattern:
T * getInstance()
{
static T * pInstance = 0;
if (!pInstance)
{
Data aData(...);
::osl::MutexGuard aGuard(::osl::Mutex::getGlobalMutex());
if (!pInstance)
{
static T aInstance(aData);
pInstance = &aInstance;
}
}
return pInstance;
}
Code:
#include <rtl/instance.hxx>
#include <osl/getglobalmutex.hxx>
namespace {
struct InitInstance
{
T * operator()()
{
static T aInstance;
return &aInstance;
}
}
struct InitData
{
Data const & operator()()
{
return ...;
}
}
}
T * getInstance()
{
return rtl_Instance< T, InitInstance,
::osl::MutexGuard, ::osl::GetGlobalMutex,
Data, InitData >::create(
InitInstance(), ::osl::GetGlobalMutex(), InitData());
}
Some comments:
For any instantiation of rtl_Instance, at most one call to a create method
may occur in the program code: Each occurrence of a create method within
the program code is supposed to return a fresh object instance on the
first call, and that same object instance on subsequent calls; but
independent occurrences of create methods are supposed to return
independent object instances. Since there is a one-to-one correspondence
between object instances and instantiations of rtl_Instance, the
requirement should be clear. One measure to enforce the requirement is
that rtl_Instance lives in an unnamed namespace, so that instantiations of
rtl_Instance in different translation units will definitely be different
instantiations. A drawback of that measure is that the name of the class
needs a funny "hand coded" prefix "rtl_" instead of a proper namespace
prefix like "::rtl::".
A known problem with this template is when two occurrences of calls to
create methods with identical template arguments appear in one translation
unit. Those two places will share a single object instance. This can be
avoided by using different Init structs (see the above code samples) in
the two places.
There is no need to make m_pInstance volatile, in order to avoid usage of
stale copies of m_pInstance: At the first check, a thread will see that
m_pInstance contains either 0 or a valid pointer. If it contains a valid
pointer, it cannot be stale, and that pointer is used. If it contains 0,
acquiring the mutex will ensure that the second check sees a non-stale
value in all cases.
On some compilers, the create methods would not be inlined if they
contained any static variables, so m_pInstance is made a class member
instead (and the create methods are inlined). But on MSC, the definition
of the class member m_pInstance would cause compilation to fail with an
internal compiler error. Since MSC is able to inline methods containing
static variables, m_pInstance is moved into the methods there. Note that
this only works well because for any instantiation of rtl_Instance at most
one call to a create method should be present, anyway.
*/
template< typename Inst, typename InstCtor,
typename Guard, typename GuardCtor,
typename Data = int, typename DataCtor = int >
class rtl_Instance
{
public:
static Inst * create(InstCtor aInstCtor, GuardCtor aGuardCtor)
{
#if defined _MSC_VER
static Inst * m_pInstance = NULL;
#endif // _MSC_VER
Inst * p = m_pInstance;
if (!p)
{
Guard aGuard(aGuardCtor());
p = m_pInstance;
if (!p)
{
p = aInstCtor();
OSL_DOUBLE_CHECKED_LOCKING_MEMORY_BARRIER();
m_pInstance = p;
}
}
else
{
OSL_DOUBLE_CHECKED_LOCKING_MEMORY_BARRIER();
}
return p;
}
static Inst * create(InstCtor aInstCtor, GuardCtor aGuardCtor,
DataCtor aDataCtor)
{
#if defined _MSC_VER
static Inst * m_pInstance = NULL;
#endif // _MSC_VER
Inst * p = m_pInstance;
if (!p)
{
Data aData(aDataCtor());
Guard aGuard(aGuardCtor());
p = m_pInstance;
if (!p)
{
p = aInstCtor(aData);
OSL_DOUBLE_CHECKED_LOCKING_MEMORY_BARRIER();
m_pInstance = p;
}
}
else
{
OSL_DOUBLE_CHECKED_LOCKING_MEMORY_BARRIER();
}
return p;
}
static Inst * create(InstCtor aInstCtor, GuardCtor aGuardCtor,
const Data &rData)
{
#if defined _MSC_VER
static Inst * m_pInstance = 0;
#endif // _MSC_VER
Inst * p = m_pInstance;
if (!p)
{
Guard aGuard(aGuardCtor());
p = m_pInstance;
if (!p)
{
p = aInstCtor(rData);
OSL_DOUBLE_CHECKED_LOCKING_MEMORY_BARRIER();
m_pInstance = p;
}
}
else
{
OSL_DOUBLE_CHECKED_LOCKING_MEMORY_BARRIER();
}
return p;
}
private:
#if !defined _MSC_VER
static Inst * m_pInstance;
#endif // _MSC_VER
};
#if !defined _MSC_VER
template< typename Inst, typename InstCtor,
typename Guard, typename GuardCtor,
typename Data, typename DataCtor >
Inst *
rtl_Instance< Inst, InstCtor, Guard, GuardCtor, Data, DataCtor >::m_pInstance
= NULL;
#endif // _MSC_VER
}
namespace rtl {
/** Helper base class for a late-initialized (default-constructed)
static variable, implementing the double-checked locking pattern correctly.
@derive
Derive from this class (common practice), e.g.
<pre>
struct MyStatic : public rtl::Static<MyType, MyStatic> {};
...
MyType & rStatic = MyStatic::get();
...
</pre>
@tparam T
variable's type
@tparam Unique
Implementation trick to make the inner static holder unique,
using the outer class
(the one that derives from this base class)
*/
#if defined LIBO_INTERNAL_ONLY
template<typename T, typename Unique>
class Static {
public:
/** Gets the static. Mutual exclusion is implied by a functional
-fthreadsafe-statics
@return
static variable
*/
static T & get() {
static T instance;
return instance;
}
};
#else
template<typename T, typename Unique>
class Static {
public:
/** Gets the static. Mutual exclusion is performed using the
osl global mutex.
@return
static variable
*/
static T & get() {
return *rtl_Instance<
T, StaticInstance,
::osl::MutexGuard, ::osl::GetGlobalMutex >::create(
StaticInstance(), ::osl::GetGlobalMutex() );
}
private:
struct StaticInstance {
T * operator () () {
static T instance;
return &instance;
}
};
};
#endif
/** Helper base class for a late-initialized (default-constructed)
static variable, implementing the double-checked locking pattern correctly.
@derive
Derive from this class (common practice), e.g.
<pre>
struct MyStatic : public rtl::Static<MyType, MyStatic> {};
...
MyType & rStatic = MyStatic::get();
...
</pre>
@tparam T
variable's type
@tparam Unique
Implementation trick to make the inner static holder unique,
using the outer class
(the one that derives from this base class)
*/
#if defined LIBO_INTERNAL_ONLY
template<typename T, typename Data, typename Unique>
class StaticWithArg {
public:
/** Gets the static. Mutual exclusion is implied by a functional
-fthreadsafe-statics
@return
static variable
*/
static T & get(const Data& rData) {
static T instance(rData);
return instance;
}
/** Gets the static. Mutual exclusion is implied by a functional
-fthreadsafe-statics
@return
static variable
*/
static T & get(Data& rData) {
static T instance(rData);
return instance;
}
};
#else
template<typename T, typename Data, typename Unique>
class StaticWithArg {
public:
/** Gets the static. Mutual exclusion is performed using the
osl global mutex.
@return
static variable
*/
static T & get(const Data& rData) {
return *rtl_Instance<
T, StaticInstanceWithArg,
::osl::MutexGuard, ::osl::GetGlobalMutex,
Data >::create( StaticInstanceWithArg(),
::osl::GetGlobalMutex(),
rData );
}
/** Gets the static. Mutual exclusion is performed using the
osl global mutex.
@return
static variable
*/
static T & get(Data& rData) {
return *rtl_Instance<
T, StaticInstanceWithArg,
::osl::MutexGuard, ::osl::GetGlobalMutex,
Data >::create( StaticInstanceWithArg(),
::osl::GetGlobalMutex(),
rData );
}
private:
struct StaticInstanceWithArg {
T * operator () (const Data& rData) {
static T instance(rData);
return &instance;
}
T * operator () (Data& rData) {
static T instance(rData);
return &instance;
}
};
};
#endif
/** Helper class for a late-initialized static aggregate, e.g. an array,
implementing the double-checked locking pattern correctly.
@tparam T
aggregate's element type
@tparam InitAggregate
initializer functor class
*/
#if defined LIBO_INTERNAL_ONLY
template<typename T, typename InitAggregate>
class StaticAggregate {
public:
/** Gets the static aggregate, late-initializing.
Mutual exclusion is implied by a functional
-fthreadsafe-statics
@return
aggregate
*/
static T * get() {
static T *instance = InitAggregate()();
return instance;
}
};
#else
template<typename T, typename InitAggregate>
class StaticAggregate {
public:
/** Gets the static aggregate, late-initializing.
Mutual exclusion is performed using the osl global mutex.
@return
aggregate
*/
static T * get() {
return rtl_Instance<
T, InitAggregate,
::osl::MutexGuard, ::osl::GetGlobalMutex >::create(
InitAggregate(), ::osl::GetGlobalMutex() );
}
};
#endif
/** Helper base class for a late-initialized static variable,
implementing the double-checked locking pattern correctly.
@derive
Derive from this class (common practice),
providing an initializer functor class, e.g.
<pre>
struct MyStatic : public rtl::StaticWithInit<MyType, MyStatic> {
MyType operator () () {
...
return MyType( ... );
}
};
...
MyType & rStatic = MyStatic::get();
...
</pre>
@tparam T
variable's type
@tparam InitData
initializer functor class
@tparam Unique
Implementation trick to make the inner static holder unique,
using the outer class
(the one that derives from this base class).
Default is InitData (common practice).
@tparam Data
Initializer functor's return type.
Default is T (common practice).
*/
#if defined LIBO_INTERNAL_ONLY
template<typename T, typename InitData,
typename Unique = InitData, typename Data = T>
class StaticWithInit {
public:
/** Gets the static. Mutual exclusion is implied by a functional
-fthreadsafe-statics
@return
static variable
*/
static T & get() {
static T instance = InitData()();
return instance;
}
};
#else
template<typename T, typename InitData,
typename Unique = InitData, typename Data = T>
class StaticWithInit {
public:
/** Gets the static. Mutual exclusion is performed using the
osl global mutex.
@return
static variable
*/
static T & get() {
return *rtl_Instance<
T, StaticInstanceWithInit,
::osl::MutexGuard, ::osl::GetGlobalMutex,
Data, InitData >::create( StaticInstanceWithInit(),
::osl::GetGlobalMutex(),
InitData() );
}
private:
struct StaticInstanceWithInit {
T * operator () ( Data d ) {
static T instance(d);
return &instance;
}
};
};
#endif
} // namespace rtl
#endif // INCLUDED_RTL_INSTANCE_HXX
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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