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chromium / chromium / 24c6d25954e40bec0c161659e45b862e70be68db / . / cc / CCThreadTask.h
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// Copyright 2011 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef CCThreadTask_h
#define CCThreadTask_h
#include "CCThread.h"
#include <wtf/PassOwnPtr.h>
#include <wtf/PassRefPtr.h>
namespace cc {
template<typename T>
class CCThreadTask0 : public CCThread::Task {
public:
typedef void (T::*Method)();
typedef CCThreadTask0<T> CCThreadTaskImpl;
static PassOwnPtr<CCThreadTaskImpl> create(T* instance, Method method)
{
return adoptPtr(new CCThreadTaskImpl(instance, method));
}
private:
CCThreadTask0(T* instance, Method method)
: CCThread::Task(instance)
, m_method(method)
{
}
virtual void performTask() OVERRIDE
{
(*static_cast<T*>(instance()).*m_method)();
}
private:
Method m_method;
};
template<typename T, typename P1, typename MP1>
class CCThreadTask1 : public CCThread::Task {
public:
typedef void (T::*Method)(MP1);
typedef CCThreadTask1<T, P1, MP1> CCThreadTaskImpl;
static PassOwnPtr<CCThreadTaskImpl> create(T* instance, Method method, P1 parameter1)
{
return adoptPtr(new CCThreadTaskImpl(instance, method, parameter1));
}
private:
CCThreadTask1(T* instance, Method method, P1 parameter1)
: CCThread::Task(instance)
, m_method(method)
, m_parameter1(parameter1)
{
}
virtual void performTask() OVERRIDE
{
(*static_cast<T*>(instance()).*m_method)(m_parameter1);
}
private:
Method m_method;
P1 m_parameter1;
};
template<typename T, typename P1, typename MP1, typename P2, typename MP2>
class CCThreadTask2 : public CCThread::Task {
public:
typedef void (T::*Method)(MP1, MP2);
typedef CCThreadTask2<T, P1, MP1, P2, MP2> CCThreadTaskImpl;
static PassOwnPtr<CCThreadTaskImpl> create(T* instance, Method method, P1 parameter1, P2 parameter2)
{
return adoptPtr(new CCThreadTaskImpl(instance, method, parameter1, parameter2));
}
private:
CCThreadTask2(T* instance, Method method, P1 parameter1, P2 parameter2)
: CCThread::Task(instance)
, m_method(method)
, m_parameter1(parameter1)
, m_parameter2(parameter2)
{
}
virtual void performTask() OVERRIDE
{
(*static_cast<T*>(instance()).*m_method)(m_parameter1, m_parameter2);
}
private:
Method m_method;
P1 m_parameter1;
P2 m_parameter2;
};
template<typename T, typename P1, typename MP1, typename P2, typename MP2, typename P3, typename MP3>
class CCThreadTask3 : public CCThread::Task {
public:
typedef void (T::*Method)(MP1, MP2, MP3);
typedef CCThreadTask3<T, P1, MP1, P2, MP2, P3, MP3> CCThreadTaskImpl;
static PassOwnPtr<CCThreadTaskImpl> create(T* instance, Method method, P1 parameter1, P2 parameter2, P3 parameter3)
{
return adoptPtr(new CCThreadTaskImpl(instance, method, parameter1, parameter2, parameter3));
}
private:
CCThreadTask3(T* instance, Method method, P1 parameter1, P2 parameter2, P3 parameter3)
: CCThread::Task(instance)
, m_method(method)
, m_parameter1(parameter1)
, m_parameter2(parameter2)
, m_parameter3(parameter3)
{
}
virtual void performTask() OVERRIDE
{
(*static_cast<T*>(instance()).*m_method)(m_parameter1, m_parameter2, m_parameter3);
}
private:
Method m_method;
P1 m_parameter1;
P2 m_parameter2;
P3 m_parameter3;
};
template<typename T, typename P1, typename MP1, typename P2, typename MP2, typename P3, typename MP3, typename P4, typename MP4>
class CCThreadTask4 : public CCThread::Task {
public:
typedef void (T::*Method)(MP1, MP2, MP3, MP4);
typedef CCThreadTask4<T, P1, MP1, P2, MP2, P3, MP3, P4, MP4> CCThreadTaskImpl;
static PassOwnPtr<CCThreadTaskImpl> create(T* instance, Method method, P1 parameter1, P2 parameter2, P3 parameter3, P4 parameter4)
{
return adoptPtr(new CCThreadTaskImpl(instance, method, parameter1, parameter2, parameter3, parameter4));
}
private:
CCThreadTask4(T* instance, Method method, P1 parameter1, P2 parameter2, P3 parameter3, P4 parameter4)
: CCThread::Task(instance)
, m_method(method)
, m_parameter1(parameter1)
, m_parameter2(parameter2)
, m_parameter3(parameter3)
, m_parameter4(parameter4)
{
}
virtual void performTask() OVERRIDE
{
(*static_cast<T*>(instance()).*m_method)(m_parameter1, m_parameter2, m_parameter3, m_parameter4);
}
private:
Method m_method;
P1 m_parameter1;
P2 m_parameter2;
P3 m_parameter3;
P4 m_parameter4;
};
template<typename T, typename P1, typename MP1, typename P2, typename MP2, typename P3, typename MP3, typename P4, typename MP4, typename P5, typename MP5>
class CCThreadTask5 : public CCThread::Task {
public:
typedef void (T::*Method)(MP1, MP2, MP3, MP4, MP5);
typedef CCThreadTask5<T, P1, MP1, P2, MP2, P3, MP3, P4, MP4, P5, MP5> CCThreadTaskImpl;
static PassOwnPtr<CCThreadTaskImpl> create(T* instance, Method method, P1 parameter1, P2 parameter2, P3 parameter3, P4 parameter4, P5 parameter5)
{
return adoptPtr(new CCThreadTaskImpl(instance, method, parameter1, parameter2, parameter3, parameter4, parameter5));
}
private:
CCThreadTask5(T* instance, Method method, P1 parameter1, P2 parameter2, P3 parameter3, P4 parameter4, P5 parameter5)
: CCThread::Task(instance)
, m_method(method)
, m_parameter1(parameter1)
, m_parameter2(parameter2)
, m_parameter3(parameter3)
, m_parameter4(parameter4)
, m_parameter5(parameter5)
{
}
virtual void performTask() OVERRIDE
{
(*static_cast<T*>(instance()).*m_method)(m_parameter1, m_parameter2, m_parameter3, m_parameter4, m_parameter5);
}
private:
Method m_method;
P1 m_parameter1;
P2 m_parameter2;
P3 m_parameter3;
P4 m_parameter4;
P5 m_parameter5;
};
template<typename T>
PassOwnPtr<CCThread::Task> createCCThreadTask(
T* const callee,
void (T::*method)());
template<typename T>
PassOwnPtr<CCThread::Task> createCCThreadTask(
T* const callee,
void (T::*method)())
{
return CCThreadTask0<T>::create(
callee,
method);
}
template<typename T, typename P1, typename MP1>
PassOwnPtr<CCThread::Task> createCCThreadTask(
T* const callee,
void (T::*method)(MP1),
const P1& parameter1)
{
return CCThreadTask1<T, P1, MP1>::create(
callee,
method,
parameter1);
}
template<typename T, typename P1, typename MP1, typename P2, typename MP2>
PassOwnPtr<CCThread::Task> createCCThreadTask(
T* const callee,
void (T::*method)(MP1, MP2),
const P1& parameter1,
const P2& parameter2)
{
return CCThreadTask2<T, P1, MP1, P2, MP2>::create(
callee,
method,
parameter1,
parameter2);
}
template<typename T, typename P1, typename MP1, typename P2, typename MP2, typename P3, typename MP3>
PassOwnPtr<CCThread::Task> createCCThreadTask(
T* const callee,
void (T::*method)(MP1, MP2, MP3),
const P1& parameter1,
const P2& parameter2,
const P3& parameter3)
{
return CCThreadTask3<T, P1, MP1, P2, MP2, P3, MP3>::create(
callee,
method,
parameter1,
parameter2,
parameter3);
}
template<typename T, typename P1, typename MP1, typename P2, typename MP2, typename P3, typename MP3, typename P4, typename MP4>
PassOwnPtr<CCThread::Task> createCCThreadTask(
T* const callee,
void (T::*method)(MP1, MP2, MP3, MP4),
const P1& parameter1,
const P2& parameter2,
const P3& parameter3,
const P4& parameter4)
{
return CCThreadTask4<T, P1, MP1, P2, MP2, P3, MP3, P4, MP4>::create(
callee,
method,
parameter1,
parameter2,
parameter3,
parameter4);
}
template<typename T, typename P1, typename MP1, typename P2, typename MP2, typename P3, typename MP3, typename P4, typename MP4, typename P5, typename MP5>
PassOwnPtr<CCThread::Task> createCCThreadTask(
T* const callee,
void (T::*method)(MP1, MP2, MP3, MP4, MP5),
const P1& parameter1,
const P2& parameter2,
const P3& parameter3,
const P4& parameter4,
const P5& parameter5)
{
return CCThreadTask5<T, P1, MP1, P2, MP2, P3, MP3, P4, MP4, P5, MP5>::create(
callee,
method,
parameter1,
parameter2,
parameter3,
parameter4,
parameter5);
}
} // namespace cc
#endif // CCThreadTask_h